1.
図書
N. Achiwa ... [et al.] ; Herausgeber, H.P.J. Wijn
目次情報:
続きを見る
Introductory material
Magnetic properties of rare earth elements, alloys and compounds / H. Drulis ; M. Drulis2:
Rare earth elements / 2.1:
Introduction / 2.1.1:
Tables / 2.1.2:
Figures / 2.1.3:
Rare earth metals: General / 2.1.3.1:
Cerium / 2.1.3.2:
Praseodymium / 2.1.3.3:
Neodymium / 2.1.3.4:
Samarium / 2.1.3.5:
Europium / 2.1.3.6:
Gadolinium / 2.1.3.7:
Terbium / 2.1.3.8:
Dysprosium / 2.1.3.9:
Holmium / 2.1.3.10:
Erbium / 2.1.3.11:
Thulium / 2.1.3.12:
Ytterbium / 2.1.3.13:
Lutetium / 2.1.3.14:
Scandium / 2.1.3.15:
References for 2.1 / 2.1.4:
Alloys between rare earth elements / S. Kawano ; N. Achiwa2.2:
Alloys between light rare earth elements / 2.2.1:
General remarks / 2.2.2.1:
Ce-La / 2.2.2.2:
Nd-La / 2.2.2.3:
Pr-Nd / 2.2.2.4:
Alloys between heavy and light rare earth elements / 2.2.3:
Gd - light rare earth alloys / 2.2.3.1:
Tb - light rare earth alloys / 2.2.3.3:
Dy - light rare earth alloys / 2.2.3.4:
Ho - light rare earth alloys / 2.2.3.5:
Er - light rare earth alloys / 2.2.3.6:
Yb-Eu / 2.2.3.7:
Sm-type structure alloys / 2.2.3.8:
Y - light rare earth alloys / 2.2.3.9:
La-rich heavy rare earth alloys / 2.2.3.10:
Alloys between heavy rare earth elements / 2.2.4:
Gd-Y, Sc, Lu, Tb, Dy, Ho, Er or Tm / 2.2.4.1:
Gd-Y or Sc alloys / 2.2.4.2.1:
Gd-Lu / 2.2.4.2.2:
Gd-Tb / 2.2.4.2.3:
Gd-Dy / 2.2.4.2.4:
Gd-Ho / 2.2.4.2.5:
Gd-Er / 2.2.4.2.6:
Tb-Y, Sc, Dy, Ho, Er, Tm, Yb or Lu / 2.2.4.3:
Tb-Y, Lu or Sc / 2.2.4.3.1:
Tb-Dy / 2.2.4.3.2:
Tb-Ho / 2.2.4.3.3:
Tb-Er / 2.2.4.3.4:
Tb-Tm / 2.2.4.3.5:
Tb-Yb / 2.2.4.3.6:
Dy-Y, Ho or Er / 2.2.4.4:
Dy-Y / 2.2.4.4.1:
Dy-Ho / 2.2.4.4.2:
Dy-Er / 2.2.4.4.3:
Ho-Y, Sc or Er / 2.2.4.5:
Ho-Y or Sc / 2.2.4.5.1:
Ho-Er / 2.2.4.5.2:
Er-Y, Tm or Lu / 2.2.4.6:
Er-Y or Lu / 2.2.4.6.1:
Er-Tm / 2.2.4.6.2:
Tm-Y or Lu / 2.2.4.7:
Y, Sc or Lu-rich heavy rare earth alloys / 2.2.4.8:
References for 2.2 / 2.2.5:
Rare earth hydrides / R.R. Arons2.3:
Survey / 2.3.1:
Crystallographic and thermal properties, phase diagrams / 2.3.3:
Magnetic properties / 2.3.4:
Crystal field properties / 2.3.5:
Electrical properties / 2.3.6:
Electron spin resonance / 2.3.7:
Nuclear spin resonance / 2.3.8:
Spectroscopic properties / 2.3.9:
Acoustic sound velocities / 2.3.10:
References for 2.3 / 2.3.11:
Introductory material
Magnetic properties of rare earth elements, alloys and compounds / H. Drulis ; M. Drulis2:
Rare earth elements / 2.1:
2.
図書
Maxim Ryadnov
目次情報:
続きを見る
Introductory Notes / Chapter 1:
Inspiring Hierarchical / 1.1:
Encoding Instructive / 1.2:
Starting Lowest / 1.3:
Picturing Biological / 1.4:
References
Recycling Hereditary / Chapter 2:
Coding Dual / 2.1:
Deoxyribonucleic / 2.1.1:
Building up in Two / 2.1.1.1:
Keeping in Shape / 2.1.1.2:
Priming Topological / 2.1.2:
Resequencing Basic / 2.1.2.1:
Choosing the Fittest / 2.1.2.1.1:
Evolving Diverse / 2.1.2.1.2:
Primary Motifs / 2.1.2.2:
Gluing Universal / 2.1.2.2.1:
Alienating Axial / 2.1.2.2.2:
Fixing Spatial / 2.2:
Hinting Geometric: Secondary Motifs / 2.2.1:
Crossing Double / 2.2.1.1:
Reporting Visible / 2.2.1.1.1:
Translating Symmetrical / 2.2.1.1.2:
Extending Cohesive / 2.2.1.2:
Sharing Mutual / 2.2.1.2.1:
Multiplying Traversal / 2.2.1.2.2:
Tiling Square / 2.2.1.2.3:
Scaffolding Algorithmic / 2.3:
Pursuing Autonomous / 2.3.1:
Lengthening to Shorten / 2.3.1.1:
Gathering to Limit / 2.3.1.2:
Assigning Arbitrary / 2.3.2:
Synchronising Local / 2.3.2.1:
Prescribing General / 2.3.2.2:
Adding up to Third / 2.3.3:
Wrapping to Shut / 2.3.3.1:
Framing to Classify / 2.3.3.2:
Outlook / 2.4:
Recaging Within / Chapter 3:
Enclosing to Deliver / 3.1:
Transporting Foreign / 3.1.1:
Fitting Flat and Straight / 3.1.1.1:
Spiralling Along / 3.1.1.2:
Packing Out and In / 3.1.2:
Spooling Around / 3.1.2.1:
Tunnelling Through
Escaping Walled / 3.1.3:
Capturing On and Off / 3.1.3.1:
Storing Exchangeable / 3.1.3.2:
Reacting Nano / 3.2:
Clustering Spherical / 3.2.1:
Contriving Consistent / 3.2.1.1:
Scaling Hosting / 3.2.1.2:
Following Linear / 3.2.2:
Channelling Inner
Converting Outer
Repairing from Inside / 3.3:
Uninviting Levy / 3.3.1:
Necessitating Exterior / 3.3.2:
Antagonising Dressing / 3.3.2.1:
Renting Occasional / 3.3.2.1.2:
Phasing West / 3.3.2.2:
Facing Concentric / 3.3.2.2.1:
Encircling Between / 3.3.2.2.2:
Singling Out Unique / 3.3.2.2.3:
Sharing the Balance / 3.3.3:
Driving Symmetrical / 3.3.3.1:
Sealing Annular / 3.3.3.2:
Reassembling Multiple / 3.4:
Keeping All in Touch / 4.1:
Unravelling the Essential / 4.1.1:
Winding Three in One / 4.1.1.1:
Aligning Stagger / 4.1.1.2:
Tapering Polar / 4.1.1.3:
Branching and Stretching / 4.1.1.4:
Replicating Apparent / 4.1.2:
Scraping Refusal / 4.1.2.1:
Tempting Compatible / 4.1.2.2:
Likening Synthetic / 4.1.2.3:
Recovering Intelligent / 4.1.2.4:
Restoring Available / 4.2:
Prompting Longitudinal / 4.2.1:
Invoking Granted / 4.2.1.1:
Reposing Modular / 4.3:
Displacing Coil / 4.3.1:
Settling Lateral / 4.3.2:
Bundling Exclusive / 4.3.2.1:
Permitting Distinctive / 4.3.2.2:
Inviting Captive / 4.3.2.3:
Clearing Limiting / 4.3.3:
Equilibrating Transitional / 4.3.3.1:
Extracting Minimal / 4.3.3.2:
Gambling Beyond / 4.4:
Guiding Proliferative / 4.4.1:
Feeding Proximate / 4.4.1.1:
Rooting Renewal / 4.4.1.2:
Accepting Inescapable / 4.4.2:
Patterning Positional / 4.4.2.1:
Relating Interfacial / 4.4.2.2:
Grafting Integral / 4.4.2.3:
Concluding Remarks / 4.5:
Learning Fluent / 5.1:
Parsing Semantic / 5.2:
Drawing Pragmatic / 5.3:
Revealing Contributory / Chapter 6:
Subject Index
Introductory Notes / Chapter 1:
Inspiring Hierarchical / 1.1:
Encoding Instructive / 1.2:
3.
図書
T.C. Chiang ... [et al.] ; Herausgeber, A. Goldmann, E.-E. Koch
目次情報:
続きを見る
Introductory material
Introduction / A. Goldmann1:
Historical remarks / 1.1:
Arrangement of data / 1.2:
Definition of quantities / 1.3:
Frequently used symbols / 1.4:
List of abbreviations, subscripts and superscripts / 1.5:
References to other volumes of Landolt-Bornstein / 1.6:
References for 1 / 1.7:
Data / 2:
Band structure and core levels of tetrahedrally-bonded semiconductors / T.C. Chiang ; F.J. Himpsel2.1:
C (diamond phase) / 2.1.1:
Si / 2.1.3:
Ge / 2.1.4:
alpha-Sn (grey tin) / 2.1.5:
SiC / 2.1.6:
BN / 2.1.7:
BP / 2.1.8:
BAs / 2.1.9:
AlN / 2.1.10:
AlP / 2.1.11:
AlAs / 2.1.12:
AlSb / 2.1.13:
GaP / 2.1.14:
GaAs / 2.1.15:
GaSb / 2.1.16:
InN / 2.1.17:
InP / 2.1.18:
InAs / 2.1.19:
InSb / 2.1.20:
ZnO / 2.1.21:
ZnS / 2.1.22:
ZnSe / 2.1.23:
ZnTe / 2.1.24:
CdO / 2.1.25:
CdS / 2.1.26:
CdSe / 2.1.27:
CdTe / 2.1.28:
References for 2.1 / 2.1.29:
Alkali halides / R.C. Leckey2.2:
Lithium halides / 2.2.1:
Sodium halides / 2.2.3:
Potassium halides / 2.2.4:
Rubidium halides / 2.2.5:
Cesium halides / 2.2.6:
References for 2.2 / 2.2.7:
Condensed molecules / H.J. Freund2.3:
Introduction and general remarks / 2.3.0:
Carbonmonoxide (CO) / 2.3.1:
Nitric oxide (NO) / 2.3.3:
References for 2.3 / 2.3.5:
sp-metals / K.H. Frank ; U. Karlsson2.4:
Li (Z = 3) / 2.4.1:
Be (Z = 4) / 2.4.3:
Na (Z = 11) / 2.4.4:
Mg (Z = 12) / 2.4.5:
Al (Z = 13) / 2.4.6:
K (Z = 19) / 2.4.7:
Ca (Z = 20) / 2.4.8:
Rb (Z = 37) / 2.4.9:
Sr (Z = 38) / 2.4.10:
Cs (Z = 55) / 2.4.11:
Ba (Z = 56) / 2.4.12:
References for 2.4 / 2.4.13:
Lanthanides / W.D. Schneider2.5:
La (Z = 57) / 2.5.1:
Ce (Z = 58) / 2.5.3:
Pr (Z = 59) / 2.5.4:
Nd (Z = 60) / 2.5.5:
Sm (Z = 62) / 2.5.6:
Eu (Z = 63) / 2.5.7:
Gd (Z = 64) / 2.5.8:
Tb (Z = 65) / 2.5.9:
Dy (Z = 66) / 2.5.10:
Ho (Z = 67) / 2.5.11:
Er (Z = 68) / 2.5.12:
Yb (Z = 70) / 2.5.14:
Lu (Z = 71) / 2.5.15:
References for 2.5 / 2.5.16:
List of abbreviations
See Vol.23A / 2.1- 2.5:
Transition metal compounds / T. Ishii2.6:
Tables and figures / 2.6.1:
References for 2.6 / 2.6.3:
Photoelectron spectra of layered compounds / R. Manzke ; M. Skibowski2.7:
Introduction - overview / 2.7.0:
IVB-VIA compounds / 2.7.1:
Titanium dichalcogenides / 2.7.1.1:
Zirconium dichalcogenides / 2.7.1.2:
Hafnium dichalcogenides / 2.7.1.3:
VB-VIA compounds / 2.7.2:
Vanadium dichalcogenides / 2.7.2.1:
Niobium dichalcogenides / 2.7.2.2:
Tantalum dichalcogenides / 2.7.2.3:
VIB-VIA compounds / 2.7.3:
Molybdenum dichalcogenides / 2.7.3.1:
Tungsten dichalcogenides / 2.7.3.2:
IIIA-VIA compounds / 2.7.4:
GaS / 2.7.4.1:
GaSe / 2.7.4.2:
GaTe / 2.7.4.3:
InSe / 2.7.4.4:
IVA-VIA compounds / 2.7.5:
GeS / 2.7.5.1:
GeSe / 2.7.5.2:
GeTe / 2.7.5.3:
SnS / 2.7.5.4:
SnSe / 2.7.5.5:
SnTe / 2.7.5.6:
VA-VIA compounds / 2.7.5.7:
IIB-, IVA-, VA-Iodides / 2.7.6.1:
References for 2.7 / 2.7.7.1:
Actinides and some of their alloys and compounds / J.R. Naegele2.8:
Ac (Z = 89) / 2.8.1:
Th (Z = 90) / 2.8.3:
Pa (Z = 91) / 2.8.4:
U (Z = 92) / 2.8.5:
Np (Z = 93) / 2.8.6:
Pu (Z = 94) / 2.8.7:
Am (Z = 95) / 2.8.8:
Cm (Z = 96) / 2.8.9:
Bk (Z = 97) / 2.8.10:
Cf (Z = 98) / 2.8.11:
Es (Z = 99) / 2.8.12:
References for 2.8 / 2.8.13:
Introductory material
Introduction / A. Goldmann1:
Historical remarks / 1.1:
4.
図書
editor, G. Chiarotti ; contributors, G. Chiarotti, ... [et al.]
目次情報:
続きを見る
Introductory material
General introduction (G. CHIAROTTI) / 1:
Motivations for a Landolt-Bornstein volume on surface physics / 1.1:
Outline of the volume / 1.2:
How to consult the volume / 1.3:
List of frequently used symbols and abbreviations / 1.4:
Conversion tables / 1.5:
Crystal structures and bulk lattice parameters of materials quoted in the volume / 1.6:
References for 1 / 1.7:
The structure of surfaces / 2:
The structure of ideal surfaces (J.F. NICHOLAS) / 2.1:
Introduction / 2.1.1:
Definitions / 2.1.1.1:
Description of a half-crystal defined by an (hkl) plane / 2.1.1.2:
Symmetry / 2.1.1.3:
Symmetry of a half-crystal / 2.1.1.3.1:
Symmetry of a surface layer / 2.1.1.3.2:
Coordination of surface atoms / 2.1.1.4:
Theory / 2.1.1.4.1:
Results for nearest neighbour bonds in face- and body-centred cubic crystals / 2.1.1.4.2:
Models of surfaces / 2.1.1.5:
The terrace-ledge-kink (TLK) model / 2.1.1.5.1:
Ball models of surfaces / 2.1.1.5.2:
Some useful crystallographic formulae / 2.1.1.6:
Surface diagrams / 2.1.2:
Positions of surface atoms in particular surfaces / 2.1.2.1:
Face-centred and body-centred cubic crystals / 2.1.2.1.1:
NaCl and diamond type structures / 2.1.2.1.2:
Hexagonal close-packed structures / 2.1.2.1.3:
Conversion formulae and extension to other atoms / 2.1.2.2:
References for 2.1 / 2.1.3:
Surface reconstruction and relaxation (A. FASOLINO, A. SELLONI, A. SHKREBTII) / 2.2:
Outline / 2.2.1:
Relaxation and reconstruction / 2.2.1.2:
Surface periodicity: notations for surface structures / 2.2.1.3:
Techniques / 2.2.1.4:
Surface preparation / 2.2.1.5:
Models of reconstruction / 2.2.1.6:
Data / 2.2.2:
Metals / 2.2.2.1:
Semiconductors and insulators / 2.2.2.2:
References for 2.2 / 2.2.3:
Structural defects at surfaces (H. HENZLER, W. RANKE) / 2.3:
Preliminary remarks / 2.3.1:
Methods of investigation / 2.3.1.2:
Microscopy / 2.3.1.2.1:
Diffraction / 2.3.1.2.2:
Ion scattering / 2.3.1.2.3:
Other methods / 2.3.1.2.4:
Experimentally observed stabile of surfaces, stepped surfaces / 2.3.2:
Metals and metal alloys / 2.3.2.1.1:
Group IV semiconductors / 2.3.2.1.2:
III-V semiconductors / 2.3.2.1.3:
Chalcogenides / 2.3.2.1.4:
Halides / 2.3.2.1.5:
Phase transitions / 2.3.2.2:
Roughening transition of stepped metal surfaces / 2.3.2.2.1:
Phase transitions on low index metal surfaces / 2.3.2.2.2:
References for 2.3 / 2.3.3:
General index (See Vol.24D) Introduction
Index of surfaces
Introductory material
General introduction (G. CHIAROTTI) / 1:
Motivations for a Landolt-Bornstein volume on surface physics / 1.1:
5.
図書
Karl Pfleger, Hans H. Maurer, Armin Weber
出版情報:
Weinheim : Wiley-VCH, c2007 2 v. ; 29 cm
子書誌情報:
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所蔵情報:
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目次情報:
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(Methods, Tables) / Volume 1:
Methods
Introduction / 1:
Experimental Section / 2:
Origin and choice of samples / 2.1:
Sample preparation / 2.2:
Standard extraction procedures / 2.2.1:
Standard liquid-liquid extraction (LLE) for plasma, urine or gastric contents (P, U, G) / 2.2.1.1:
STA procedure (hydrolysis, extraction and microwave-assisted acetylation) for urine (U+UHYAC) / 2.2.1.2:
Extraction of urine after cleavage of conjugates by glucuronidase and arylsulfatase (UGLUC) / 2.2.1.3:
Extractive methylation procedure for urine or plasma (UME, PME) / 2.2.1.4:
Solid-phase extraction for plasma or urine (PSPE, USPE) / 2.2.1.5:
LLE of plasma for determination of drugs for brain death diagnosis / 2.2.1.6:
Extraction of ethylene glycol and other glycols from plasma or urine followed by microwave-assisted pivalylation (PEGPIV or UEGPIV) / 2.2.1.7:
Derivatization procedures / 2.2.2:
Acetylation (AC) / 2.2.2.1:
Methylation (ME) / 2.2.2.2:
Ethylation (ET) / 2.2.2.3:
tert.-Butyldimethylsilylation (TBDMS) / 2.2.2.4:
Trimethylsilylation (TMS) / 2.2.2.5:
Trimethylsilylation followed by trifluoroacetylation (TMSTFA) / 2.2.2.6:
Trifluoroacetylation (TFA) / 2.2.2.7:
Pentafluoropropionylation (PFP) / 2.2.2.8:
Pentafluoropropylation (PFPOL) / 2.2.2.9:
Heptafluorobutyrylation (HFB) / 2.2.2.10:
Pivalylation (PIV) / 2.2.2.11:
Heptafluorobutyrylprolylation (HFBP) / 2.2.2.12:
GC-MS Apparatus / 2.3:
Apparatus and operation conditions / 2.3.1:
Quality assurance of the apparatus performance / 2.3.2:
Determination of retention indices / 2.4:
Systematic toxicological analysis (STA) of several classes of drugs and their metabolites by GC-MS / 2.5:
Screening for 200 drugs in blood plasma after LLE / 2.5.1:
Screening for most of the basic and neutral drugs in urine after acid hydrolysis, LLE and acetylation / 2.5.2:
Systematic toxicological analysis procedures for the detection of acidic drugs and/or their metabolites / 2.5.3:
General screening procedure for zwitterionic compounds after SPE and silylation / 2.5.4:
Application of the electronic version of this handbook / 2.6:
Quantitative determination / 2.7:
Correlation between Structure and Fragmentation / 3:
Principle of electron-ionization mass spectrometry (EI-MS) / 3.1:
Correlation between fundamental structures or side chains and fragment ions / 3.2:
Formation of Artifacts / 4:
Artifacts formed by oxidation during extraction with diethyl ether / 4.1:
N-Oxidation of tertiary amines / 4.1.1:
S-Oxidation of phenothiazines / 4.1.2:
Artifacts formed by thermolysis during GC (GC artifact) / 4.2:
Decarboxylation of carboxylic acids / 4.2.1:
Cope elimination of N-oxides (-(CH3)2NOH, -(C2H5)2NOH, -C6H14N2O2) / 4.2.2:
Rearrangement of bis-deethyl flurazepam (-H2O) / 4.2.3:
Elimination of various residues / 4.2.4:
Methylation of carboxylic acids in methanol ((ME), ME in methanol) / 4.2.5:
Formation of formaldehyde adducts using methanol as solvent (GC artifact in methanol) / 4.2.6:
Artifacts formed by thermolysis during GC and during acid hydrolysis (GC artifact, HY artifact) / 4.3:
Dehydration of alcohols (-H2O) / 4.3.1:
Decarbamoylation of carbamates / 4.3.2:
Cleavage of morazone to phenmetrazine / 4.3.3:
Artifacts formed during acid hydrolysis / 4.4:
Cleavage of the ether bridge in beta-blockers and alkanolamine antihistamines (HY) / 4.4.1:
Cleavage of 1,4-benzodiazepines to aminobenzoyl derivatives (HY) / 4.4.2:
Cleavage and rearrangement of N-demethyl metabolites of clobazam to benzimidazole derivatives (HY) / 4.4.3:
Cleavage and rearrangement of bis-deethyl flurazepam (HY -H2O) / 4.4.4:
Cleavage and rearrangement of tetrazepam / 4.4.5:
(Methods, Tables) / Volume 1:
Methods
Introduction / 1:
6.
図書
authors, G. Guelachvili, K.Narahari Rao ; editor, G. Guelachvili
目次情報:
続きを見る
CS2 (SCS).
CS2+ (SCS+).
CS2++ (SCS++).
CSe2 (SeCSe).
C2N (CCN).
C2N (CNC).
C2N+ (CCN+).
C2N+ (CNC+).
CS2 (SCS).
CS2+ (SCS+).
CS2++ (SCS++).
7.
図書
Corneliu Constantinescu
目次情報:
続きを見る
Introduction
Banach Algebras / 2:
Algebras / 2.1:
General Results / 2.1.1:
Invertible Elements / 2.1.2:
The Spectrum / 2.1.3:
Standard Examples / 2.1.4:
Complexification of Algebras / 2.1.5:
Exercises
Normed Algebras / 2.2:
The Standard Examples / 2.2.1:
The Exponential Function and the Neumann Series / 2.2.3:
Invertible Elements of Unital Banach Algebras / 2.2.4:
The Theorems of Riesz and Gelfand / 2.2.5:
Poles of Resolvents / 2.2.6:
Modules / 2.2.7:
Involutive Banach Algebras / 2.3:
Involutive Algebras / 2.3.1:
Sesquilinear Forms / 2.3.2:
Positive Linear Forms / 2.3.4:
The State Space / 2.3.5:
Involutive Modules / 2.3.6:
Gelfand Algebras / 2.4:
The Gelfand Transform / 2.4.1:
Involutive Gelfand Algebras / 2.4.2:
Examples / 2.4.3:
Locally Compact Additive Groups / 2.4.4:
The Fourier Transform / 2.4.5:
Compact Operators / 3:
The General Theory / 3.1:
Fredholm Operators / 3.1.1:
Point Spectrum / 3.1.4:
Spectrum of a Compact Operator / 3.1.5:
Integral Operators / 3.1.6:
Linear Differential Equations / 3.2:
Boundary Value Problems for Differential Equations / 3.2.1:
Supplementary Results / 3.2.2:
Linear Partial Differential Equations / 3.2.3:
Name
Index Subject
Index Symbol
Index
Introduction
Banach Algebras / 2:
Algebras / 2.1:
8.
図書
editor, H.P.J. Wijn ; contributors, D. Bonnenberg ... [et al.]
目次情報:
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Introductory material
Magnetic alloys for technical applications / 7:
Soft magnetic alloys, Invar and Elinvar alloys (See Vol.19I1) / 7.1:
Hard magnetic alloys / 7.2:
Magnet alloys based on 3d elements / T. Nakamichi7.2.1:
Introduction and list of abbreviations / 7.2.1.1:
Introduction / 7.2.1.1.1:
List of frequently used abbreviations / 7.2.1.1.2:
Magnet alloys with martensitic transformation / 7.2.1.2:
Fe-C base magnet alloys / 7.2.1.2.1:
Survey of the properties of Fe-C base magnet alloys / 7.2.1.2.1.1:
Permanent magnet properties of Fe-C, Fe-Cr-C and Fe-W-C alloys as dependent on the preparation technique / 7.2.1.2.1.2:
Permanent magnet properties of Fe-Al-C alloys as dependent on the preparation technique / 7.2.1.2.1.3:
Permanent magnet properties of Fe-Co-C alloys as dependent on the preparation technique / 7.2.1.2.1.4:
Fe-Ni and Fe-Mn base magnet alloys / 7.2.1.2.2:
Survey of the properties of Fe-Ni and Fe-Mn base magnet alloys / 7.2.1.2.2.1:
Permanent magnet properties of Fe-Ni base alloys as dependent on the preparation technique / 7.2.1.2.2.2:
Permanent magnet properties of Fe-Mn base alloys as dependent on the preparation technique / 7.2.1.2.2.3:
Fe-Co-V magnet alloys / 7.2.1.2.3:
Survey of the properties of Fe-Co-V magnet alloys / 7.2.1.2.3.1:
Permanent magnet properties of Fe-Co-V alloys as dependent on the preparation technique / 7.2.1.2.3.2:
fcc-type magnet alloys with a simple precipitation / 7.2.1.3:
Co-Fe base magnet alloys with high Co content and Co-Fe-Ni alloys with a small amount of Nb / 7.2.1.3.1:
Survey of the properties of the magnet system / 7.2.1.3.2.1:
Permanent magnet properties of the alloy system as dependent on the preparation technique / 7.2.1.3.2.2:
bcc-type magnet alloys with a simple precipitation (Fe-Co-Mo and Fe-Co-W alloys) / 7.2.1.4:
bcc-type magnet alloys with spinodal decomposition / 7.2.1.5:
General introduction / 7.2.1.5.1:
Fe-Ni-Al base magnet alloys / 7.2.1.5.2:
Fe-Ni-Al alloy system / 7.2.1.5.2.1:
Fe-(5-18) wt % Co-Ni-Al-Cu alloy system / 7.2.1.5.2.3:
Fe-24 wt % Co-Ni-Al-Cu alloy system / 7.2.1.5.2.4:
Fe-(30-40) wt % Co-Ni-Al-Ti-Cu alloy system / 7.2.1.5.2.5:
Fe-Cr-Co base magnet alloys / 7.2.1.5.3:
Fe-Cr-(0-5) wt % Co alloy system / 7.2.1.5.3.1:
Fe-Cr-(10-15) wt % Co alloy system / 7.2.1.5.3.3:
Fe-Cr-(23-25) wt % Co alloy system / 7.2.1.5.3.4:
Fe-Mo-Ni base magnet alloys / 7.2.1.5.4:
fcc-type magnet alloys with spinodal decomposition (Cu-Ni-Co and Cu-Ni-Fe alloys) / 7.2.1.6:
Permanent magnet properties of Cu-Ni-Co alloys as dependent on the preparation technique / 7.2.1.6.1:
Permanent magnet properties of Cu-Ni-Fe alloys as dependent on the preparation technique / 7.2.1.6.3:
Magnet alloys with order transformation (Co-Pt and Fe-Pt alloys) / 7.2.1.7:
Permanent magnet properties of Co-Pt alloys as dependent on the preparation technique / 7.2.1.7.1:
Permanent magnet properties of Fe-Pt alloys as dependent on the preparation technique / 7.2.1.7.3:
Intermediate-phase magnet alloys (MnAl and MnAl (C) alloys) / 7.2.1.8:
Permanent magnet properties of MnAl and MnAl (C) alloys as dependent on the preparation technique / 7.2.1.8.1:
Magnet alloys of the intermetallic compound MnBi / 7.2.1.9:
Fe-Cu magnet alloys / 7.2.1.10:
References for 7.2.1 / 7.2.1.11:
Rare earth - 3d magnet alloys / D. Bonnenberg ; H.P.J. Wijn7.2.2:
Sm-Co magnet alloys / 7.2.2.1:
Sm-Co-Fe- (M) magnet alloys, M = Cr, Mn / 7.2.2.3:
Sm-Co-Cu magnet alloys / 7.2.2.4:
Sm-Co-Cu-Fe- (M) magnet alloys, M = Ti, Zr, Mn, Ni, Hf / 7.2.2.5:
(Sm)-R-Co-Cu- (Fe) magnet alloys (R = rare earth element) / 7.2.2.6:
References for 7.2.2 / 7.2.2.7:
Intrinsic properties / 7.2.3:
Sintered magnets / 7.2.3.3:
Melt-quenched magnets / 7.2.3.4:
References for 7.2.3 / 7.2.3.5:
Preparation, crystal structure and lattice parameters / E. Burzo ; H.R. Kirchmayr7.2.4:
Magnetization and Curie temperature / 7.2.4.3:
Magnetic structure / 7.2.4.4:
Hyperfine parameters determined by nuclear gamma resonance / 7.2.4.5:
Hyperfine parameters determined by nuclear magnetic resonance / 7.2.4.6:
Electrical resistivity / 7.2.4.7:
Specific heat / 7.2.4.8:
Magnetostriction / 7.2.4.9:
Magnetic anisotropy / 7.2.4.10:
Permanent magnet properties / 7.2.4.11:
References for 7.2.4 / 7.2.4.12:
Rare-earth-iron interstitial compounds / 7.2.5:
General / 7.2.5.1:
Preparation of the alloys / 7.2.5.1.1:
Crystal structure and lattice parameters / 7.2.5.2:
Hyperfine parameter determined by nuclear gamma resonance / 7.2.5.2.2:
References for 7.2.5 / 7.2.5.3.5:
Introductory material
Magnetic alloys for technical applications / 7:
Soft magnetic alloys, Invar and Elinvar alloys (See Vol.19I1) / 7.1:
9.
図書
American Institute of Chemical Engineers. Center for Chemical Process Safety
出版情報:
New York : Center for Chemical Process Safety of the American Institute of Chemical Engineers, c1995 xxvii, 210 p. ; 24 cm
子書誌情報:
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所蔵情報:
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目次情報:
続きを見る
List of Tables
List of Figures
Preface
Acknowledgments
Glossary
List of Symbols
Introduction / Chapter 1:
General / 1.1:
Chemical Reactivity / 1.2:
Detonations, Deflagrations, and Runaways / 1.3:
Assessment and Testing Strategies / 1.4:
Identification of Hazardous Chemical Reactivity / Chapter 2:
Summary/Strategy / 2.1:
Hazard Identification Strategy / 2.1.1:
Exothermic Reactions / 2.1.3:
Experimental Thermal and Reactivity Measurements / 2.1.4:
Test Strategies / 2.1.5:
Overview of Thermal Stability Test methods / 2.1.6:
Examples of Interpretation and Application of Test Data / 2.1.7:
Technical Section / 2.2:
Identification of High Energy Substances / 2.2.2:
Hazard Prediction by Thermodynamic Calculations / 2.2.3:
Oxygen Balance / 2.2.3.1:
Calculation of the Reaction Enthalpy / 2.2.3.2:
Application of Computer Programs / 2.2.3.3:
Instability/Incompatibility Factors / 2.2.4:
Factors Influencing Stability / 2.2.4.1:
Redox Systems / 2.2.4.2:
Reactions with Water / 2.2.4.3:
Reactions between Halogenated Hydrocarbons and Metals / 2.2.4.4:
Practical Testing / 2.3:
Screening Tests / 2.3.1:
Thermal Analysis / 2.3.1.1:
Isoperibolic Calorimetry / 2.3.1.2:
Thermal Stability and Runaway Testing / 2.3.2:
Isothermal Storage Tests / 2.3.2.1:
Dewar Flask Testing and Adiabatic Storage Tests / 2.3.2.2:
Accelerating Rate Calorimeter (ARC) / 2.3.2.3:
Stability Tests for Powders / 2.3.2.4:
Explosibility Testing / 2.3.3:
.Detonation Testing / 2.3.3.1:
Deflagration Testing and Autoclave Testing / 2.3.3.2:
Mechanical Sensitivity Testing / 2.3.3.3:
Sensitivity to heating Under Confinement / 2.3.3.4:
Reactivity Testing / 2.3.4:
Pyrophoric Properties / 2.3.4.1:
Reactivity with Water / 2.3.4.2:
Oxidizing Properties / 2.3.4.3:
Flammability Testing / 2.3.5:
Chemical Reactivity Considerations in Process/Reactor Design and Operation / Chapter 3:
Thermal Hazards: Identification and Analysis / 3.1:
Cause, Definition, and Prevention of a Runaway / 3.1.1.1:
Some Simple Rules for Inherent Safety / 3.1.1.2:
Strategy for Inherent Safety in Design and Operation / 3.1.1.3:
Equipment to be Used for the Analysis of Hazards / 3.1.1.4:
Reactor, Heat and Mass Balance Considerations / 3.2:
Heat and Mass Balances, Kinetics, and Reaction Stability / 3.2.1:
Adiabatic Temperature Rise / 3.2.1.1:
The Reaction / 3.2.1.2:
Reaction Rate / 3.2.1.3:
Reaction Rate Constant / 3.2.1.4:
Concentration of Reactants / 3.2.1.5:
Effect of Surrounding Temperature on Stability / 3.2.1.6:
Effect of Agitation and Surface Fouling on Stability / 3.2.1.7:
Mass Balance / 3.2.1.8:
Choice of Reactor / 3.2.2:
Heat Transfer / 3.2.3:
Heat Transfer in Nonagitated Vessels / 3.2.3.1:
Heat Transfer in Agitated Vessels / 3.2.3.2:
Acquisition and Use of Process Design data / 3.3:
Bench-Scale Equipment for Batch/Tank Reactors / 3.3.1:
Reaction Calorimeter (RC1) / 3.3.2.1:
Contalab / 3.3.2.2:
CPA ThermoMetric Instruments / 3.3.2.3:
Quantitative Reaction Calorimeter / 3.3.2.4:
Specialized Rectors / 3.3.2.5:
Vent Size Package (VSP) / 3.3.2.6:
Reactive System Screening Tool (RSST) / 3.3.2.7:
Process Safety for Reactive Systems / 3.3.3:
Test Plan / 3.3.3.1:
System Under Investigation / 3.3.3.2:
Test Results / 3.3.3.3:
Malfunction and Process Deviation Testing / 3.3.3.4:
Pressure Effect / 3.3.3.5:
Results from the ARC, RSST, and VSP / 3.3.3.6:
Scale-up and Pilot Plants / 3.3.4:
General Remarks / 3.3.4.1:
Chemical Kinetics. 3 / 3.3.4.2:
List of Tables
List of Figures
Preface
10.
図書
International Institute of Refrigeration. Commission B2 ; International Institute of Refrigeration. Commission C2 ; International Institute of Refrigeration. Commission E2
出版情報:
Buenos Aires : Its Organizing Committee, 1992 364 p. ; 25 cm
子書誌情報:
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11.
図書
edited with translation and explanatory notes by S.D. Joshi and J.A.F. Roodbergen
12.
図書
H. Haug ... [et al.] ; edited by C. Klingshirn
目次情報:
続きを見る
Landolt-Börnstein
Group III: Condensed Matter
Semiconductor Quantum Structures / Volume 34:
Optical Properties (Part 2) / Subvolume C2:
Introductory material
Low-dimensional structures of II-VI compounds / 5:
General properties / H. Kalt5.1:
Introduction / 5.1.1:
Some basic properties of bulk II-VI compounds / 5.1.2:
Band-gap energies / 5.1.2.1:
Excitonic properties / 5.1.2.2:
Alignment of electronic bands / 5.1.3:
References for 5.1 / 5.1.4:
Quantum-well structures of II-VI compounds / 5.2:
(Hg,X)Te quantum wells / 5.2.1:
Low-density regime / 5.2.1.1:
Electronic states in quantum wells / 5.2.1.1.1:
Electron-hole and excitonic transitions / 5.2.1.1.2:
Modification of the optical properties by internal fields / 5.2.1.2:
Modification of the optical properties by external fields / 5.2.1.3:
High-density regime and nonlinear optics / 5.2.1.4:
References for 5.2.1 / 5.2.1.5:
CdTe quantum wells / 5.2.2:
Excitonic transitions / 5.2.2.1:
Localized excitons / 5.2.2.1.3:
Polariton effects / 5.2.2.1.4:
Strained quantum wells / 5.2.2.2:
Piezoelectric quantum wells / 5.2.2.2.2:
Hydrostatic pressure / 5.2.2.3:
External electric fields / 5.2.2.3.2:
External magnetic fields / 5.2.2.3.3:
The intermediate-density regime / 5.2.2.4:
Exciton-exciton interaction / 5.2.2.4.1:
Excitonic lasing and optical gain / 5.2.2.4.2:
Biexcitons / 5.2.2.4.3:
The high-density regime / 5.2.2.5:
One-component plasma (2DEG) / 5.2.2.5.1:
Electron-hole plasma / 5.2.2.5.2:
Coherent dynamics and relaxation of optical excitations / 5.2.2.6:
Coherent interactions / 5.2.2.6.1:
Dephasing mechanisms and homogeneous linewidth / 5.2.2.6.2:
Relaxation processes / 5.2.2.6.3:
Transport phenomena of excitons and trions / 5.2.2.6.4:
Radiative and nonradiative recombination / 5.2.2.6.5:
References for 5.2.2 / 5.2.2.7:
(Cd,Zn)Te, (Cd,Mn)Te, and (Cd,Mg)Te quantum wells / 5.2.3:
The intermediate and high-density regimes / 5.2.3.1:
References for 5.2.3 / 5.2.3.4:
ZnTe quantum wells / 5.2.4:
Excitons and polaritons / 5.2.4.1:
Optical nonlinearities and high-density effects / 5.2.4.3:
References for 5.2.4 / 5.2.4.4:
Telluride diluted-magnetic semiconductor quantum-well structures: (Hg,Mn)Te, (Cd,Mn)Te, and (Zn,Mn)Te QWs; Se/Te type-II QWs / 5.2.5:
Zeeman splitting and its applications / 5.2.5.1:
Giant Zeeman splitting / 5.2.5.1.1:
Magnetic-field induced type-I to type-II transition / 5.2.5.1.2:
Interface effects in non-DMS/DMS QW structures / 5.2.5.1.3:
Magnetic-field induced circular birefringence / 5.2.5.1.4:
Coulomb-bound electron-hole pairs and complexes (low-density regime) / 5.2.5.2:
Magnetic polarons / 5.2.5.2.1:
Donor-acceptor pair recombination / 5.2.5.2.3:
The intermediate and high-density regime / 5.2.5.3:
Spin-aligned excitons / 5.2.5.3.1:
Spin-aligned magnetoplasma / 5.2.5.3.2:
Two-dimensional electron or hole gas / 5.2.5.3.3:
Coherent spin dynamics and spin injection / 5.2.5.4:
Spin relaxation / 5.2.5.4.2:
Exciton dephasing and homogeneous broadening / 5.2.5.4.3:
Formation dynamics of magnetic polarons / 5.2.5.4.4:
Recombination processes / 5.2.5.4.5:
References for 5.2.5 / 5.2.5.5:
Telluride/Selenide quantum wells / 5.2.6:
High-density regime and dynamics / 5.2.6.1:
References for 5.2.6 / 5.2.6.3:
HgSe and (Hg,Cd)Se quantum wells / 5.2.7:
References for 5.2.7
CdSe quantum wells / 5.2.8:
High-density regime / 5.2.8.1:
Relaxation dynamics / 5.2.8.3:
References for 5.2.8 / 5.2.8.4:
(Cd,Zn)Se quantum wells / 5.2.9:
Modifications of the optical properties by internal fields / 5.2.9.1:
Piezoelectric fields / 5.2.9.2.1:
Modifications of the optical properties by external fields / 5.2.9.3:
Excitonic interactions and Pauli blocking / 5.2.9.3.1:
Two-photon absorption and second harmonic generation / 5.2.9.4.2:
Localized biexcitons / 5.2.9.4.3:
Excitonic and biexcitonic stimulated emission and optical gain / 5.2.9.4.4:
Fermi-edge singularity / 5.2.9.5:
Correlated electron-hole plasma / 5.2.9.5.2:
Coherent interactions and dephasing / 5.2.9.6:
Transport phenomena / 5.2.9.6.2:
Dynamics of gain and stimulated emission / 5.2.9.6.4:
Radiative and non-radiative recombination / 5.2.9.6.5:
References for 5.2.9 / 5.2.9.7:
ZnSe quantum wells / 5.2.10:
Strain and piezoelectric fields / 5.2.10.1:
Transient internal space charge fields / 5.2.10.2.2:
Electric fields / 5.2.10.3:
Magnetic fields / 5.2.10.3.3:
Excitonic gain and lasing / 5.2.10.4:
Nonlinear optical effects / 5.2.10.4.4:
Optical gain and lasing / 5.2.10.5:
Hot-exciton relaxation / 5.2.10.6:
Lateral transport / 5.2.10.6.4:
References for 5.2.10 / 5.2.10.6.6:
Selenide-based quantum wells containing Be, Mg, or S in the well / 5.2.11:
References for 5.2.11
Selenide diluted-magnetic semiconductor quantum-well structures: (Cd,Mn)Se, (Zn,Mn)Se, and (Zn,Fe)Se QWs / 5.2.12:
Two-dimensional electron gas / 5.2.12.1:
Spin dephasing and relaxation / 5.2.12.4:
Dynamics of magnetic polarons / 5.2.12.4.2:
References for 5.2.12 / 5.2.12.4.3:
Zincblende Sulphide/Selenide type-II quantum wells / 5.2.13:
References for 5.2.13
CdS/ZnS and (Cd,Zn)S/ZnS quantum wells / 5.2.14:
Intermediate and high-density regime / 5.2.14.1:
Exciton dynamics / 5.2.14.4:
References for 5.2.14 / 5.2.14.5:
ZnS/(Zn,Mg)S quantum wells / 5.2.15:
References for 5.2.15
ZnO and (Zn,Cd)O quantum wells / 5.2.16:
Dynamics of optical excitations / 5.2.16.1:
References for 5.2.16 / 5.2.16.5:
Superlattices and coupled quantum-well structures of II-VI compounds / 5.3:
(Hg,X)Te superlattices / 5.3.1:
Electronic states in superlattices / 5.3.1.1:
References for 5.3.1 / 5.3.1.1.2:
CdTe/(Cd,X)Te and (Cd,X)Te/ZnTe superlattices and coupled quantum wells / 5.3.2:
Transient effects and dynamics / 5.3.2.1:
References for 5.3.2 / 5.3.2.5:
Telluride diluted magnetic semiconductor superlattices and coupled quantum wells / 5.3.3:
Electronic states in DMS SLs / 5.3.3.1:
Spin states in DMS SLs / 5.3.3.2:
Polaritons / 5.3.3.3:
Dynamic processes / 5.3.3.5:
References for 5.3.3 / 5.3.3.6:
Telluride/Selenide and Telluride/Sulphide superlattices / 5.3.4:
Electronic states in type-II SLs / 5.3.4.1:
Excitons and isoelectronic traps / 5.3.4.2:
High-excitation regime / 5.3.4.3:
References for 5.3.4 / 5.3.4.5:
CdSe, ZnSe, (Cd,Zn)Se, and (Zn,Mg)(S,Se) superlattices and coupled quantum wells / 5.3.5:
Electronic states in strained-layer superlattices / 5.3.5.1:
Optical functions in superlattices and multiple quantum wells / 5.3.5.1.2:
Magnetic field / 5.3.5.1.3:
References for 5.3.5 / 5.3.5.4:
Selenide DMS superlattices and coupled quantum wells / 5.3.6:
Electronic states in diluted magnetic semiconductor superlattices (DMS SLs) / 5.3.6.1:
Spin-relaxation and spin injection / 5.3.6.1.2:
References for 5.3.6 / 5.3.6.3:
CdSe/CdS and CdS/ZnSe intrinsic Stark superlattices / 5.3.7:
References for 5.3.7 / 5.3.7.1:
Zincblende Sulphide/Selenide superlattices / 5.3.8:
References for 5.3.8
CdS/ZnS, CdS/(Cd,ZnS), and (Cd,Zn)S/ZnS superlattices / 5.3.9:
References for 5.3.9
Quantum-wire structures / 5.4:
Telluride quantum wires / 5.4.1:
Selenide quantum wires / 5.4.1.1:
Electron-phonon coupling / 5.4.2.1:
Optical gain / 5.4.2.1.3:
Exciton recombination / 5.4.2.3:
Sulfide quantum wires / 5.4.3:
Oxide quantum wires / 5.4.4:
Semimagnetic quantum wires / 5.4.5:
Mn-related transitions / 5.4.5.1:
Magneto-optics / 5.4.5.2:
References for 5.4 / 5.4.6:
II-VI Quantum dots I - Nanocrystals / U. Woggon ; S.V. Gaponenko5.5:
HgTe / 5.5.1:
CdTe / 5.5.2:
The low-density regime / 5.5.2.1:
Size-dependent energy states / 5.5.2.1.1:
Splitting of states / 5.5.2.1.2:
Interaction with phonons / 5.5.2.1.3:
Impurity states / 5.5.2.1.4:
Coherent dynamics, relaxation and recombination of optical excitations / 5.5.2.2:
Dot-dot interactions, quantum dot arrays / 5.5.2.5:
(Cd,Hg)Te / 5.5.3:
Cd(Te,Se) and Cd(Te,S) / 5.5.4:
ZnTe / 5.5.5:
HgSe / 5.5.6:
CdSe / 5.5.7:
Biexciton states / 5.5.7.1:
Nonlinear optical coefficients / 5.5.7.2.2:
Stimulated emission and optical gain / 5.5.7.2.3:
Dephasing times and homogeneous linewidth / 5.5.7.3:
Cd(Se,S) / 5.5.7.4.2:
(Cd,Mn)Se / 5.5.8.1:
(Cd,Zn)Se / 5.5.10:
ZnSe / 5.5.11:
HgS / 5.5.11.1:
CdS / 5.5.13:
Nonlinear-optical coefficients / 5.5.13.1:
(Zn,Cd)S / 5.5.13.2.3:
(Zn,Mn)S / 5.5.15:
ZnS / 5.5.16:
CdO / 5.5.16.1:
ZnO / 5.5.18:
References for 5.5 / 5.5.18.1:
II-VI Quantum dots II - Self-organized, epitaxially grown nanostructures / 5.6:
Excitonic states and their fine structure / 5.6.1:
Charged excitons / 5.6.2.1.2:
(Cd,Mn)Te, (Cd,Mg)Te / 5.6.2.1.3:
CdSe and ZnCdSe / 5.6.4:
References for 5.6 / 5.6.6.1:
Landolt-Börnstein
Group III: Condensed Matter
Semiconductor Quantum Structures / Volume 34:
13.
図書
Thomas Barkowsky
目次情報:
続きを見る
Introduction / 1:
Mental Processing of Geographic Knowledge / 1.1:
Cognitive Maps / 1.1.1:
Mental Construction of Spatial Knowledge: An Example / 1.1.2:
Theses and Assumptions / 1.2:
Knowledge Construction and Human Memory / 1.2.1:
Characteristics of Geographic Knowledge / 1.2.2:
Spatial Knowledge Organization in Long-Term Memory / 1.2.3:
Visual Mental Images and Diagrammatic Reasoning / 1.2.4:
Research Questions and Goals / 1.3:
Research Questions / 1.3.1:
Goals / 1.3.2:
Approach: Experimental Computational Modeling / 1.4:
Computational Cognition / 1.4.1:
Building Computational Models / 1.4.2:
Modeling as Experimental Approach / 1.4.3:
Organization of this Thesis / 1.5:
State of the Art / 2:
Spatial Knowledge Conceptions: Cognitive Maps and Other Metaphors / 2.1:
Rubber Sheet Maps, Cognitive Atlases, Collages, and Geographic Information Systems / 2.1.1:
Spatial Mental Models / 2.1.3:
Other Conceptions / 2.1.4:
Human Memory / 2.2:
Working Memory / 2.2.1:
Long-Term Memory / 2.2.2:
Interacting Memory Systems in Mental Imagery / 2.2.3:
Mental Imagery / 2.3:
The Imagery Debate / 2.3.1:
Psychological and Neuroscientific Foundations / 2.3.2:
The Kosslyn Models / 2.3.3:
The 1980 Model / 2.3.3.1:
The 1994 Model / 2.3.3.2:
Spatial Reasoning / 2.4:
Topology / 2.4.1:
Orientation / 2.4.2:
Distance / 2.4.3:
Shape / 2.4.4:
Computational Geometry / 2.4.5:
Diagrammatic Reasoning / 2.5:
Propositional vs. Analogical Knowledge Representation / 2.5.1:
Types of Diagrammatic Reasoning Systems / 2.5.2:
Examples for Diagrammatic Reasoning Architectures / 2.5.3:
DEPIC-2D / 2.5.3.1:
WHISPER / 2.5.3.2:
Computational Imagery / 2.5.3.3:
Summary / 2.6:
MIRAGE - Developing the Model / 3:
Characteristics of the Model / 3.1:
Evaluating the Working Memory Representation / 3.1.1:
MIRAGE - Outline of the Model / 3.2:
Types of Entities and Spatial Relations in MIRAGE / 3.3:
Entities / 3.3.1:
Relations / 3.3.2:
Subsystems, Structures, and Processes / 3.4:
Long-Term Memory Activation / 3.4.1:
Spatial Knowledge Fragments / 3.4.1.1:
The Hierarchical Long-Term Memory Representation / 3.4.1.2:
The Access Process / 3.4.1.3:
The Activated Long-Term Memory Representation / 3.4.1.4:
The Construction Process / 3.4.1.5:
Visual Mental Image Construction / 3.4.2:
The Enriched Representation / 3.4.2.1:
The Conversion Process / 3.4.2.2:
The Visual Buffer / 3.4.2.3:
The Visualization Process / 3.4.2.4:
Image Inspection / 3.4.3:
The Inspection Result / 3.4.3.1:
The Inspection Process / 3.4.3.2:
Visual Mental Image Construction in Detail / 4:
A More Demanding Scenario / 4.1:
Diagrammatic Representations of Lean Knowledge / 4.2:
Consequences for Image Construction / 4.3:
Relaxation of Spatial Constraints / 4.3.1:
Completion of Qualitative Spatial Relations / 4.3.2:
Interpretation of Qualitative Spatial Relations / 4.3.3:
Image Revision Strategies in MIRAGE / 4.4:
Unstable Images / 4.4.1:
Omission of Facts / 4.4.2:
Revision of Relational Completion / 4.4.3:
Variation of Relational Completion / 4.4.3.1:
Relaxation of Relational Completion / 4.4.3.2:
Revision of Image Specification / 4.4.4:
Depicting Qualitative Spatial Relations / 4.4.4.1:
Depicting Unspecified Spatial Relations / 4.4.4.2:
MIRAGE Implementation / 4.5:
Computational Tools for Modeling: SIMSIS / 5.1:
The Idea of SIMSIS / 5.1.1:
The Aspect Map Model / 5.1.1.1:
Modeling Aspect Maps in SIMSIS / 5.1.1.2:
Depictions, Scenarios, and Interpretations / 5.1.2:
SIMSIS Pictures / 5.1.2.1:
SIMSIS Facts and Scenarios / 5.1.2.2:
SIMSIS Interpretations and Meaning Systems / 5.1.2.3:
Realization of the Model / 5.2:
MIRAGE Structures / 5.2.1:
Entities, Relations, and Spatial Knowledge Fragments / 5.2.1.1:
The Long-Term Memory Representations / 5.2.1.2:
MIRAGE Processes / 5.2.1.3:
The Long-Term Memory Activation Processes / 5.2.2.1:
The Image Construction Processes / 5.2.2.2:
Operation and Behavior of MIRAGE / 5.2.2.3:
Conclusion and Outlook / 6:
Results and Discussion / 6.1:
Reflecting the Theses / 6.2.1:
Spatial Knowledge Construction / 6.2.1.1:
Underdeterminacy in Long-Term Memory / 6.2.1.2:
Fragmentation and Hierarchical Organization / 6.2.1.3:
Visual Mental Imagery / 6.2.1.4:
The Parameters of the Model / 6.2.2:
Explicit Parameters / 6.2.2.1:
Implicit Parameters / 6.2.2.2:
Conclusions / 6.2.3:
Future Work / 6.3:
Extending MIRAGE / 6.3.1:
Geographic Entities and Spatial Relations / 6.3.1.1:
Partially Aggregated Knowledge Structures / 6.3.1.2:
Mental Imagery Functionality / 6.3.1.3:
Parameters of MIRAGE / 6.3.1.4:
Empirical Investigations / 6.3.2:
Use of Default Knowledge / 6.3.2.1:
Control of Image Construction / 6.3.2.2:
Processing Capacity for Mental Images / 6.3.2.3:
Use of Chunking Facilities / 6.3.2.4:
Combination of Propositional and Image-Based Reasoning / 6.3.2.5:
Application Perspectives / 6.3.3:
Adequate Presentation of Visual Information / 6.3.3.1:
External Support of Reasoning in Mental Images / 6.3.3.2:
Bibliography
Index
Introduction / 1:
Mental Processing of Geographic Knowledge / 1.1:
Cognitive Maps / 1.1.1:
14.
図書
Robert Alicki and Mark Fannes
出版情報:
Oxford : Oxford University Press, c2001 xiv, 278 p. ; 24 cm
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Introduction / 1:
Basic tools for quantum mechanics / 2:
Hilbert spaces and operators / 2.1:
Vector spaces / 2.1.1:
Banach and Hilbert spaces / 2.1.2:
Geometrical properties of Hilbert spaces / 2.1.3:
Orthonormal bases / 2.1.4:
Subspaces and projectors / 2.1.5:
Linear maps between Banach spaces / 2.1.6:
Linear functionals and Dirac notation / 2.1.7:
Adjoints of bounded operators / 2.1.8:
Hermitian, unitary and normal operators / 2.1.9:
Partial isometries and polar decomposition / 2.1.10:
Spectra of operators / 2.1.11:
Unbounded operators / 2.1.12:
Measures / 2.2:
Measures and integration / 2.2.1:
Distributions / 2.2.2:
Hilbert spaces of functions / 2.2.3:
Spectral measures / 2.2.4:
Probability in quantum mechanics / 2.3:
Pure states / 2.3.1:
Mixed states, density matrices / 2.3.2:
Observables in quantum mechanics / 2.4:
Compact operators / 2.4.1:
Weyl quantization / 2.4.2:
Composed systems / 2.5:
Direct sums / 2.5.1:
Tensor products / 2.5.2:
Observables and states of composite systems / 2.5.3:
Notes / 2.6:
Deterministic dynamics / 3:
Deterministic quantum dynamics / 3.1:
Time-independent Hamiltonians / 3.1.1:
Perturbations of Hamiltonians / 3.1.2:
Time-dependent Hamiltonians / 3.1.3:
Periodic perturbations and Floquet operators / 3.1.4:
Kicked dynamics / 3.1.5:
Classical limits / 3.2:
Classical differentiable dynamics / 3.3:
Self-adjoint Laplacians on compact manifolds / 3.4:
Spin chains / 3.5:
Local observables / 4.1:
States of a spin system / 4.2:
Symmetries and dynamics / 4.3:
Algebraic tools / 5:
C*-algebras / 5.1:
Examples / 5.2:
States and representations / 5.3:
Dynamical systems and von Neumann algebras / 5.4:
Fermionic dynamical systems / 5.5:
Fermions in Fock space / 6.1:
Fock space / 6.1.1:
Creation and annihilation / 6.1.2:
Second quantization / 6.1.3:
The CAR-algebra / 6.2:
Canonical anticommutation relations / 6.2.1:
Quasi-free automorphisms / 6.2.2:
Quasi-free states / 6.2.3:
Ergodic theory / 6.3:
Ergodicity in classical systems / 7.1:
Ergodicity in quantum systems / 7.2:
Asymptotic Abelianness / 7.2.1:
Multitime correlations / 7.2.2:
Fluctuations around ergodic means / 7.2.3:
Lyapunov exponents / 7.3:
Classical dynamics / 7.3.1:
Quantum dynamics / 7.3.2:
Quantum irreversibility / 7.4:
Measurement theory / 8.1:
Open quantum systems / 8.2:
Complete positivity / 8.3:
Quantum dynamical semigroups / 8.4:
Quasi-free completely positive maps / 8.5:
Entropy / 8.6:
von Neumann entropy / 9.1:
Technical preliminaries / 9.1.1:
Properties of von Neumann's entropy / 9.1.2:
Mean entropy / 9.1.3:
Entropy of quasi-free states / 9.1.4:
Relative entropy / 9.2:
Finite-dimensional case / 9.2.1:
Maximum entropy principle / 9.2.2:
Algebraic setting / 9.2.3:
Dynamical entropy / 9.3:
Operational partitions / 10.1:
Symbolic dynamics / 10.2:
The entropy / 10.2.2:
Some technical results / 10.3:
The quantum shift / 10.4:
The free shift / 10.4.2:
Infinite entropy / 10.4.3:
Powers-Price shifts / 10.4.4:
Classical dynamical entropy / 10.5:
The Kolmogorov-Sinai invariant / 11.1:
H-density / 11.2:
Finite quantum systems / 12:
Quantum chaos / 12.1:
Time scales / 12.1.1:
Spectral statistics / 12.1.2:
Semi-classical limits / 12.1.3:
The kicked top / 12.2:
The model / 12.2.1:
The classical limit / 12.2.2:
Kicked mean-field Heisenberg model / 12.2.3:
Chaotic properties / 12.2.4:
Gram matrices / 12.3:
Entropy production / 12.4:
Model systems / 12.5:
Entropy of the quantum cat map / 13.1:
Ruelle's inequality / 13.2:
Non-commutative Riemannian structures / 13.2.1:
Non-commutative Lyapunov exponents / 13.2.2:
Quasi-free Fermion dynamics / 13.2.3:
Description of the model / 13.3.1:
Main result / 13.3.2:
Sketch of the proof / 13.3.3:
Epilogue / 13.4:
References
Index
Introduction / 1:
Basic tools for quantum mechanics / 2:
Hilbert spaces and operators / 2.1:
15.
図書
Hans Bisswanger
出版情報:
Weinheim : WILEY-VCH, c2008 xviii, 301 p. ; 25 cm
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Preface to the Second English Edition
Preface to the First English Edition
Symbols and Abbreviations
Introduction and Definitions
References
Multiple Equilibria / 1:
Diffusion / 1.1:
Interaction between Macromolecules and Ligands / 1.2:
Binding Constants / 1.2.1:
Macromolecules with One Binding Site / 1.2.2:
Macromolecules with Identical Independent Binding Sites / 1.3:
General Binding Equation / 1.3.1:
Graphic Representations of the Binding Equation / 1.3.2:
Direct and Linear Diagrams / 1.3.2.1:
Analysis of Binding Data from Spectroscopic Titrations / 1.3.2.2:
Binding of Different Ligands, Competition / 1.3.3:
Non-competitive Binding / 1.3.4:
Macromolecules with Non-identical, Independent Binding Sites / 1.4:
Macromolecules with Identical, Interacting Binding Sites, Cooperativity / 1.5:
The Hill Equation / 1.5.1:
The Adair Equation / 1.5.2:
The Pauling Model / 1.5.3:
Allosteric Enzymes / 1.5.4:
The Symmetry or Concerted Model / 1.5.5:
The Sequential Model and Negative Cooperativity / 1.5.6:
Analysis of Cooperativity / 1.5.7:
Physiological Aspects of Cooperativity / 1.5.8:
Examples of Allosteric Enzymes / 1.5.9:
Hemoglobin / 1.5.9.1:
Aspartate Transcarbamoylase / 1.5.9.2:
Aspartokinase / 1.5.9.3:
Phosphofructokinase / 1.5.9.4:
Allosteric Regulation of the Glycogen Metabolism / 1.5.9.5:
Membrane Bound Enzymes and Receptors / 1.5.9.6:
Non-identical, Interacting Binding Sites / 1.6:
Enzyme Kinetics / 2:
Reaction Order / 2.1:
First Order Reactions / 2.1.1:
Second Order Reactions / 2.1.2:
Zero Order Reactions / 2.1.3:
Steady-State Kinetics and the Michaelis-Menten Equation / 2.2:
Derivation of the Michaelis-Menten Equation / 2.2.1:
Analysis of Enzyme Kinetic Data / 2.3:
Graphical Representations of the Michaelis-Menten Equation / 2.3.1:
Direct and Semi-logarithmic Representations / 2.3.1.1:
Direct Linear Plots / 2.3.1.2:
Linearization Methods / 2.3.1.3:
Analysis of Progress Curves / 2.3.2:
Integrated Michaelis-Menten Equation / 2.3.2.1:
Determination of Reaction Rates / 2.3.2.2:
Graphic Methods for Rate Determination / 2.3.2.3:
Graphic Determination of True Initial Rates / 2.3.2.4:
Reversible Enzyme Reactions / 2.4:
Rate Equation for Reversible Enzyme Reactions / 2.4.1:
The Haldane Relationship / 2.4.2:
Product Inhibition / 2.4.3:
Enzyme Inhibition / 2.5:
Unspecific Enzyme Inhibition / 2.5.1:
Irreversible Enzyme Inhibition / 2.5.2:
General Features of Irreversible Enzyme Inhibition / 2.5.2.1:
Suicide Substrates / 2.5.2.2:
Transition State Analogs / 2.5.2.3:
Analysis of Irreversible Inhibitions / 2.5.2.4:
Reversible Enzyme Inhibition / 2.5.3:
General Rate Equation / 2.5.3.1:
Non-Competitive Inhibition and Graphic Representation of Inhibition Data / 2.5.3.2:
Competitive Inhibition / 2.5.3.3:
Uncompetitive Inhibition / 2.5.3.4:
Partially Non-competitive Inhibition / 2.5.3.5:
Partially Uncompetitive Inhibition / 2.5.3.6:
Partially Competitive Inhibition / 2.5.3.7:
Noncompetitive and Uncompetitive Product Inhibition / 2.5.3.8:
Substrate Inhibition / 2.5.3.9:
Enzyme Reactions with Two Competing Substrates / 2.5.4:
Different Enzymes Catalyzing the Same Reaction / 2.5.5:
Multi-substrate Reactions / 2.6:
Nomenclature / 2.6.1:
Random Mechanism / 2.6.2:
Ordered Mechanism / 2.6.3:
Ping-pong Mechanism / 2.6.4:
Product Inhibition in Multi-substrate Reactions / 2.6.5:
Haldane Relationships in Multi-substrate Reactions / 2.6.6:
Mechanisms with more than Two Substrates / 2.6.7:
Other Nomenclatures for Multi-substrate Reactions / 2.6.8:
Derivation of Rate Equations of Complex Enzyme Mechanisms / 2.7:
King-Altmann Method / 2.7.1:
Simplified Derivations Applying Graph Theory / 2.7.2:
Combination of Equilibrium and Steady State Approach / 2.7.3:
Kinetic Treatment of Allosteric Enzymes / 2.8:
Hysteretic Enzymes / 2.8.1:
Kinetic Cooperativity, the Slow Transition Model / 2.8.2:
pH and Temperature Dependence of Enzymes / 2.9:
pH Optimum and Determination of pK Values / 2.9.1:
pH Stability / 2.9.2:
Temperature Dependence / 2.9.3:
Isotope Exchange / 2.10:
Isotope Exchange Kinetics / 2.10.1:
Isotope Effects / 2.10.2:
Primary Kinetic Isotope Effect / 2.10.2.1:
Influence of the Kinetic Isotope Effect on V and Km / 2.10.2.2:
Other Isotope Effects / 2.10.2.3:
Special Enzyme Mechanisms / 2.11:
Ribozymes / 2.11.1:
Polymer Substrates / 2.11.2:
Kinetics of Immobilized Enzymes / 2.11.3:
External Diffusion Limitation / 2.11.3.1:
Internal Diffusion Limitation / 2.11.3.2:
Inhibition of Immobilized Enzymes / 2.11.3.3:
pH and Temperature Behavior of Immobilized Enzymes / 2.11.3.4:
Transport Processes / 2.11.4:
Enzyme Reactions at Membrane Interfaces / 2.11.5:
Application of Statistical Methods in Enzyme Kinetics / 2.12:
General Remarks / 2.12.1:
Statistical Terms Used in Enzyme Kinetics / 2.12.2:
Methods / 3:
Methods for Investigation of Multiple Equilibria / 3.1:
Equilibrium Dialysis and General Aspects of Binding Measurements / 3.1.1:
Equilibrium Dialysis / 3.1.1.1:
Control Experiments and Sources of Error / 3.1.1.2:
Continuous Equilibrium Dialysis / 3.1.1.3:
Ultrafiltration / 3.1.2:
Gel Filtration / 3.1.3:
Batch Method / 3.1.3.1:
The Method of Hummel and Dreyer / 3.1.3.2:
Other Gel Filtration Methods / 3.1.3.3:
Ultracentrifugation / 3.1.4:
Fixed Angle Ultracentrifugation Methods / 3.1.4.1:
Sucrose Gradient Centrifugation / 3.1.4.2:
Surface Plasmon Resonance / 3.1.5:
Electrochemical Methods / 3.2:
The Oxygen Electrode / 3.2.1:
The CO2 Electrode / 3.2.2:
Potentiometry, Redox Potentials / 3.2.3:
The pH-stat / 3.2.4:
Polarography / 3.2.5:
Calorimetry / 3.3:
Spectroscopic Methods / 3.4:
Absorption Spectroscopy / 3.4.1:
The Lambert-Beer Law / 3.4.1.1:
Spectral Properties of Enzymes and Ligands / 3.4.1.2:
Structure of Spectrophotometers / 3.4.1.3:
Double Beam Spectrophotometer / 3.4.1.4:
Difference Spectroscopy / 3.4.1.5:
The Dual Wavelength Spectrophotometer / 3.4.1.6:
Photochemical Action Spectra / 3.4.1.7:
Bioluminescence / 3.4.2:
Fluorescence / 3.4.3:
Quantum Yield / 3.4.3.1:
Structure of Spectrofluorimeters / 3.4.3.2:
Perturbations of Fluorescence Measurements / 3.4.3.3:
Fluorescent Compounds (Fluorophores) / 3.4.3.4:
Radiationless Energy Transfer / 3.4.3.5:
Fluorescence Polarization / 3.4.3.6:
Pulse Fluorimetry / 3.4.3.7:
Circular Dichroism and Optical Rotation Dispersion / 3.4.4:
Infrared and Raman Spectroscopy / 3.4.5:
IR Spectroscopy / 3.4.5.1:
Raman Spectroscopy / 3.4.5.2:
Applications / 3.4.5.3:
Electron Paramagnetic Resonance Spectroscopy / 3.4.6:
Measurement of Fast Reactions / 3.5:
Flow Methods / 3.5.1:
The Continuous Flow Method / 3.5.1.1:
The Stopped-flow Method / 3.5.1.2:
Measurement of Enzyme Reactions by Flow Methods / 3.5.1.3:
Determination of the Dead Time / 3.5.1.4:
Relaxation Methods / 3.5.2:
The Temperature Jump Method / 3.5.2.1:
The Pressure Jump Method / 3.5.2.2:
The Electric Field Method / 3.5.2.3:
Flash Photolysis, Pico- and Femto-second Spectroscopy / 3.5.3:
Evaluation of Rapid Kinetic Reactions (Transient Kinetics) / 3.5.4:
Subject Index
Preface to the Second English Edition
Preface to the First English Edition
Symbols and Abbreviations
16.
図書
editors, Hisham Z. Massoud ... [et al.]
17.
図書
C. Daul ... [et al.] ; Hrsg., H. Fischer
目次情報:
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Title Page
Preface
General introduction / H. Fischer
Inorganic radicals and radical ions / J.R. Morton ; K.F. Preston1:
Introduction / 1.1:
Tables / 1.2:
Muonium (m) / 1.2.1:
Helium-centered radicals / 1.2.2:
Lithium-centered radicals / 1.2.4:
Beryllium-centered radicals / 1.2.5:
Boron-centered radicals / 1.2.6:
Carbon-centered radicals / 1.2.7:
Nitrogen-centered radicals / 1.2.8:
Oxygen-centered radicals / 1.2.9:
Fluorine-centered radicals / 1.2.10:
Sodium-centered radicals / 1.2.11:
Magnesium-centered radicals / 1.2.12:
Aluminum-centered radicals / 1.2.13:
Silicon-centered radicals / 1.2.14:
Phosphorus-centered radicals / 1.2.15:
Sulfur-centered radicals / 1.2.16:
Chlorine-centered radicals / 1.2.17:
Potassium-centered radicals / 1.2.18:
Calcium-centered radicals / 1.2.19:
Scandium-centered radicals / 1.2.20:
Titanium-centered radicals / 1.2.21:
Vanadium-centered radicals / 1.2.22:
Chromium-centered radicals / 1.2.23:
Manganese-centered radicals / 1.2.24:
Iron-centered radicals / 1.2.25:
Cobalt-centered radicals / 1.2.26:
Nickel-centered radicals / 1.2.27:
Copper-centered radicals / 1.2.28:
Zinc-centered radicals / 1.2.29:
Gallium-centered radicals / 1.2.30:
Germanium-centered radicals / 1.2.31:
Arsenic-centered radicals / 1.2.32:
Selenium-centered radicals / 1.2.33:
Bromine-centered radicals / 1.2.34:
Rubidium-centered radicals / 1.2.35:
Strontium-centered radicals / 1.2.36:
Yttrium-centered radicals / 1.2.37:
Molybdenum-centered radicals / 1.2.38:
Ruthenium-centered radicals / 1.2.39:
Palladium-centered radicals / 1.2.40:
Silver-centered radicals / 1.2.41:
Cadmium-centered radicals / 1.2.42:
Indium-centered radicals / 1.2.43:
Tin-centered radicals / 1.2.44:
Antimony-centered radicals / 1.2.45:
Tellurium-centered radicals / 1.2.46:
Iodine-centered radicals / 1.2.47:
Xenon-centered radicals / 1.2.48:
Cesium-centered radicals / 1.2.49:
Barium-centered radicals / 1.2.50:
Ytterbium-centered radicals / 1.2.51:
Tungsten-centered radicals / 1.2.52:
Rhenium-centered radicals / 1.2.53:
Osmium-centered radicals / 1.2.54:
Platinum-centered radicals / 1.2.55:
Gold-centered radicals / 1.2.56:
Mercury-centered radicals / 1.2.57:
Thallium-centered radicals / 1.2.58:
Lead-centered radicals / 1.2.59:
Bismuth-centered radicals / 1.2.60:
Neptunium-centered radicals / 1.2.61:
References for 1.2 / 1.3:
Radicals in metal complexes / A. V.Zelewsky ; C. Daul ; C.W. Schlapfer2:
Complexes of group 1 (Li, Na, K, Rb, Cs) / 2.1:
Complexes of group 2 (Be, Mg, Ca, Sr, Ba) / 2.2.2:
Complexes of group 3d (Sc, Y, La) and 3f (U) / 2.2.3:
Complexes of group 4d (Ti) / 2.2.4:
Complexes of group 5d (V) / 2.2.5:
Complexes of group 6d (Cr, Mo, W) / 2.2.6:
Complexes of group 7d (Mn, Re) / 2.2.7:
Complexes of group 8d (Fe, Ru, Os) / 2.2.8:
Complexes of group 9d (Co, Rh) / 2.2.9:
Complexes of group 10d (Ni, Pd, Pt) / 2.2.10:
Complexes of group 11d (Cu, Ag, Au) / 2.2.11:
Complexes of group 12d (Zn, Cd, Hg) / 2.2.12:
Complexes of group 13 (Al, Ga, In, TI) / 2.2.13:
Complexes of group 14 (Ge, Sn, Pb) / 2.2.14:
Complexes of group 15 (Sb, Bi) / 2.2.15:
References for 2.1 and 2.2 / 2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H)
Title Page
Preface
General introduction / H. Fischer
18.
図書
A. Ehrenfeucht, T. Harju, G. Rozenberg
出版情報:
Singapore : World Scientific, c1999 xvi, 290 p. ; 23 cm
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Preface
Preliminaries / Chapter 1:
Notations / 1.1:
Sets and functions / 1.1.1:
Closure operators / 1.1.2:
Relations / 1.1.3:
Equivalence relations / 1.1.4:
Partial orders / 1.2:
Downsets / 1.2.1:
Order embeddings / 1.2.2:
Linear orders / 1.2.3:
Semigroups and groups / 1.3:
Notations for semigroups and monoids / 1.3.1:
Free monoids (with involution) / 1.3.2:
Preliminaries on groups / 1.3.3:
Group actions / 1.3.4:
Free groups, commutators and verbal identities / 1.3.5:
Graph Theoretical Preliminaries / Chapter 2:
Directed and Undirected Graphs / 2.1:
Basic notions / 2.1.1:
Connectivity of graphs / 2.1.2:
Some special graphs / 2.1.3:
Comparability graphs / 2.2:
Transitively oriented graphs / 2.2.1:
Permutation graphs and cographs / 2.2.2:
Construction trees of cographs / 2.2.3:
2-Structures and Their Clans / Chapter 3:
Introduction and representations / 3.1:
Definition of a 2-structure / 3.1.1:
Isomorphic 2-structures / 3.1.2:
Reversibility / 3.1.3:
Substructures and clans / 3.2:
Substructures, clans and factors / 3.2.1:
Refinements and similarity / 3.2.2:
Reversible version / 3.2.3:
Graphs and packed components / 3.2.4:
Some special 2-structures / 3.2.5:
Closure properties of clans / 3.3:
Basic closures / 3.3.1:
Sibas: set theoretic closure properties / 3.3.2:
Clans of factors / 3.3.3:
Prime clans / 3.4:
Prime members in sibas / 3.4.1:
Minimal overlapping clans / 3.4.2:
Quotients and Homomorphisms / Chapter 4:
Quotients / 4.1:
Factorizations and quotients / 4.1.1:
Homomorphisms / 4.1.2:
Natural epimorphisms and decompositions / 4.1.3:
Clans and epimorphisms / 4.2:
Homomorphism theorem / 4.2.1:
Prime clans in quotients / 4.2.2:
Primitive quotients / 4.2.3:
Other operations / 4.3:
Premorphisms / 4.3.1:
Extensions / 4.3.2:
Clan Decomposition / Chapter 5:
The clan decomposition theorem / 5.1:
Maximal prime clans / 5.1.1:
Special sibas and 2-structures / 5.1.2:
The relationship of sibas to 2-structures / 5.1.3:
The shape of a 2-structure / 5.2:
The shape and its representation as a tree / 5.2.1:
Same shapes / 5.2.2:
A construction of prime clans / 5.3:
A construction of clans / 5.3.1:
Primitive 2-Structures / 5.3.2:
Small primitive substructures / 6.1:
Uniformly imprimitive 2-structures / 6.1.1:
Primitive substructures of 3 or 4 nodes / 6.1.2:
Hereditary properties / 6.2:
Local and global nodes / 6.2.1:
Critically primitive 2-structures / 6.2.2:
The parity theorem / 6.3.1:
The list of critically primitive 2-structures / 6.3.2:
Angular 2-Structures / Chapter 7:
Angularity / 7.1:
All-connectivity / 7.1.1:
All-connected skew angular 2-structures / 7.1.2:
T-structures / 7.2:
T-structures and partial orders / 7.2.1:
T[subscript 2]-structures / 7.2.2:
Linear orders and Schroder numbers / 7.3:
Bi-orders and linear orders / 7.3.1:
Uniformly imprimitive linear orders / 7.3.2:
Parenthesis words and Schroder numbers / 7.3.3:
Labelled 2-Structures / Chapter 8:
Introduction to l2-structures / 8.1:
Definitions / 8.1.1:
Substructures, clans and quotients / 8.1.2:
Clan decomposition of l2-structures / 8.2:
Uniqueness of decompositions / 8.2.1:
The shape of an l2-structure / 8.2.2:
Graphs and their representations / 8.2.3:
Graphs as l2-structures / 8.3.1:
On comparability graphs / 8.3.2:
Unstable Labelled 2-Structures / Chapter 9:
Triangle free and unstable l2-structures / 9.1:
Removable edges / 9.1.1:
Internal and external nodes / 9.1.2:
Triangle-free l2-structures / 9.1.3:
Heredity in unstable l2-structures / 9.2:
The partition of nodes / 9.2.1:
Alternating structures / 9.2.2:
Degrees of nodes / 9.2.3:
A composition of unstable l2-structures / 9.3:
A constructive reduction of primitive l2-structures / 9.3.1:
Pendant components / 9.3.2:
Automorphisms of Labelled 2-Structures / Chapter 10:
Label preserving automorphisms / 10.1:
The l-automorphism groups / 10.1.1:
Transitivity / 10.1.2:
Automorphic actions on factors / 10.1.3:
Universality of l-automorphism groups / 10.1.4:
Nonpreserving automorphisms / 10.2:
Connections to l-automorphisms / 10.2.1:
Transitivity and associated permutations / 10.2.2:
Representing labels by automorphisms / 10.2.3:
Switching of Graphs / Chapter 11:
Introduction to switching / 11.1:
The group of graphs / 11.1.1:
Switching classes / 11.1.3:
Structural properties of switching classes / 11.2:
A local characterization / 11.2.1:
Automorphisms / 11.2.2:
Special problems on undirected graphs / 11.3:
Two-graphs / 11.3.1:
Eulerian graphs / 11.3.2:
Pancyclic graphs / 11.3.3:
Trees / 11.3.4:
Labelled Structures over Groups / Chapter 12:
Introduction / 12.1:
Groups and involutions / 12.1.1:
Selectors and switching classes / 12.1.2:
An interpretation in networks / 12.2:
Concurrent behaviour in networks / 12.2.1:
Reducing the actions to groups / 12.2.2:
Introducing reversibility / 12.2.3:
Examples for some special groups / 12.3:
The cyclic groups Z[subscript 3] and Z[subscript 4] / 12.3.1:
The symmetric group S[subscript 3] / 12.3.2:
Clans of Switching Classes / Chapter 13:
Associated groups / 13.1:
The group of selectors / 13.1.1:
The group of abelian switching classes / 13.1.2:
Clans and horizons / 13.2:
Spanning trees / 13.2.1:
Horizons and constant selectors / 13.2.2:
Clans / 13.2.3:
Cardinalities of switching classes / 13.3:
Some special cases / 13.3.1:
Centralizers / 13.3.2:
Some improvements / 13.3.3:
Quotients and Plane Trees / Chapter 14:
Quotients of switching classes / 14.1:
Planes and plane trees / 14.1.1:
Planes / 14.2.1:
Plane trees / 14.2.2:
Bijective correspondence of plane trees / 14.2.3:
Forms / 14.2.4:
Invariants / Chapter 15:
Free invariants / 15.1:
General invariants / 15.1.1:
Edge monoids / 15.1.2:
Variable functions and free invariants / 15.1.3:
Group properties of free invariants / 15.2:
Abelian property / 15.2.1:
Graphs of words / 15.2.2:
Verbal identities / 15.2.3:
Invariants on abelian groups / 15.3:
Independency of free invariants / 15.3.1:
Complete sets of invariants / 15.3.2:
Invariants on nonabelian groups / 15.4:
General observations / 15.4.1:
Central characters / 15.4.2:
A characterization theorem / 15.4.3:
Bibliography
Index
Preface
Preliminaries / Chapter 1:
Notations / 1.1:
19.
図書
[редакция ... В.Г. Озерова ... и др.]
出版情報:
Москва : "Книга", 1927- v. ; 27 cm
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20.
図書
Joseph Wang
出版情報:
New York, N.Y. : VCH, c1994 xi, 198 p. ; 25 cm
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Preface
Abbreviations and Symbols
Fundamental Concepts / 1:
Why Electroanalysis? / 1.1:
Faradaic Processes / 1.2:
Mass-Transport-Controlled Reactions / 1.2.1:
Potential-Step Experiment / 1.2.1.1:
Potential-Sweep Experiments / 1.2.1.2:
Reactions Controlled by the Rate of Electron Transfer / 1.2.2:
Activated Complex Theory / 1.2.2.1:
Electrical Double Layer / 1.3:
Electrocapillary Effect / 1.4:
Supplementary Reading / 1.5:
Problems
References
Study of Electrode Reactions and Interfacial Properties / 2:
Cyclic Voltammetry / 2.1:
Data Interpretation / 2.1.1:
Reversible Systems / 2.1.1.1:
Irreversible and Quasi-reversible Systems / 2.1.1.2:
Study of Reaction Mechanisms / 2.1.2:
Study of Adsorption Processes / 2.1.3:
Quantitative Applications / 2.1.4:
Spectroelectrochemistry / 2.2:
Experimental Arrangement / 2.2.1:
Principles and Applications / 2.2.2:
Electrochemiluminescence / 2.2.3:
Optical Probing of Electrode-Solution Interfaces / 2.2.4:
Scanning Probe Microscopy / 2.3:
Scanning Tunneling Microscopy / 2.3.1:
Atomic Force Microscopy / 2.3.2:
Scanning Electrochemical Microscopy / 2.3.3:
Electrochemical Quartz Crystal Microbalance / 2.4:
Impedance Spectroscopy / 2.5:
Examples
Controlled-Potential Techniques / 3:
Chronoamperometry / 3.1:
Polarography / 3.2:
Pulse Voltammetry / 3.3:
Normal-Pulse Voltammetry / 3.3.1:
Differential-Pulse Voltammetry / 3.3.2:
Square-Wave Voltammetry / 3.3.3:
Staircase Voltammetry / 3.3.4:
AC Voltammetry / 3.4:
Stripping Analysis / 3.5:
Anodic Stripping Voltammetry / 3.5.1:
Potentiometric Stripping Analysis / 3.5.2:
Adsorptive Stripping Voltammetry and Potentiometry / 3.5.3:
Cathodic Stripping Voltammetry / 3.5.4:
Abrasive Stripping Voltammetry / 3.5.5:
Applications / 3.5.6:
Flow Analysis / 3.6:
Principles / 3.6.1:
Cell Design / 3.6.2:
Mass Transport and Current Response / 3.6.3:
Detection Modes / 3.6.4:
Practical Considerations / 4:
Electrochemical Cells / 4.1:
Solvents and Supporting Electrolytes / 4.2:
Oxygen Removal / 4.3:
Instrumentation / 4.4:
Working Electrodes / 4.5:
Mercury Electrodes / 4.5.1:
Solid Electrodes / 4.5.2:
Rotating Disk and Rotating Ring Disk Electrodes / 4.5.2.1:
Carbon Electrodes / 4.5.2.2:
Glassy Carbon Electrodes / 4.5.2.2.1:
Carbon Paste Electrodes / 4.5.2.2.2:
Carbon Fiber Electrodes / 4.5.2.2.3:
Diamond Electrodes / 4.5.2.2.4:
Metal Electrodes / 4.5.2.3:
Chemically Modified Electrodes / 4.5.3:
Self-Assembled Monolayers / 4.5.3.1:
Carbon-Nanotube-Modified Electrodes / 4.5.3.2:
Sol-gel Encapsulation of Reactive Species / 4.5.3.3:
Electrocatalytically Modified Electrodes / 4.5.3.4:
Preconcentrating Electrodes / 4.5.3.5:
Permselective Coatings / 4.5.3.6:
Conducting Polymers / 4.5.3.7:
Microelectrodes / 4.5.4:
Diffusion at Microelectrodes / 4.5.4.1:
Microelectrode Configurations / 4.5.4.2:
Composite Electrodes / 4.5.4.3:
Potentiometry / 5:
Principles of Potentiometric Measurements / 5.1:
Ion-Selective Electrodes / 5.2:
Glass Electrodes / 5.2.1:
pH Electrodes / 5.2.1.1:
Glass Electrodes for Other Cations / 5.2.1.2:
Liquid Membrane Electrodes / 5.2.2:
Ion Exchanger Electrodes / 5.2.2.1:
Neutral Carrier Electrodes / 5.2.2.2:
Solid-State Electrodes / 5.2.3:
Coated-Wire Electrodes and Solid-State Electrodes Without an Internal Filling Solution / 5.2.4:
On-line, On-site, and In Vivo Potentiometric Measurements / 5.3:
Electrochemical Sensors / 6:
Electrochemical Biosensors / 6.1:
Enzyme-Based Electrodes / 6.1.1:
Practical and Theoretical Considerations / 6.1.1.1:
Enzyme Electrodes of Analytical Significance / 6.1.1.2:
Glucose Sensors / 6.1.1.2.1:
Preface
Abbreviations and Symbols
Fundamental Concepts / 1:
21.
図書
Alexander Mamishev, Sean Williams
出版情報:
Hoboken, N.J. : John Wiley & Sons, c2010 xvii, 243 p. ; 24 cm.
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Preface
Acknowledgments
Introduction / Chapter 1:
In this Chapter / 1.1:
Our Audience / 1.2:
A few horror stories / 1.2.1:
Some history / 1.2.2:
The Need For a Good "Writing System" / 1.3:
Introducing Stream Tools / 1.4:
What is STREAM Tools? / 1.4.1:
Why use STREAM Tools? / 1.4.2:
The software of STREAM Tools / 1.4.3:
Recommended packages / 1.4.3.1:
A brief comparison of Microsoft Word vs. LaTeX: history and myths / 1.4.3.2:
How to Use this Book / 1.5:
Exercises / 1.6:
Quick Start Guide For Stream Tools / Chapter 2:
A General Overview of the Writing Process / 2.1:
Introduction to Writing Quality Tools: The Stream Tools Editorial Mark-Up Table / 2.3:
Introduction to Document Design Tools / 2.4:
Important fundamental concepts / 2.4.1:
Step 1: Use template files to create your new manuscripts / 2.4.1.1:
Step 2: Copy existing elements and paste them into a new location / 2.4.1.2:
Step 3: Edit the element / 2.4.1.3:
Step 4: Cross-referencing elements / 2.4.1.4:
Creating Elements in a Document / 2.4.2:
Headings / 2.4.2.1:
Equations / 2.4.2.2:
Figures / 2.4.2.3:
Tables / 2.4.2.4:
References (literature citations) / 2.4.2.5:
Introduction to File Management: Optimizing Your Workflow / 2.5:
General principles / 2.5.1:
Using a wiki for file management / 2.5.2:
Version control / 2.5.3:
Conclusions / 2.6:
Document Design / 2.7:
Creating Templates / 3.1:
How to create and cross-reference a heading template / 3.2.1:
How to alter a heading template / 3.2.1.2:
Common formatting mistakes in headings / 3.2.1.3:
Common stylistic mistakes for headings / 3.2.1.4:
Tips and tricks / 3.2.1.5:
How to create and cross-reference an equation template / 3.2.2:
How to alter an equation template / 3.2.2.2:
Common formatting mistakes for equations / 3.2.2.3:
Common stylistic mistakes for equations / 3.2.2.4:
How to create and cross-reference a figure template / 3.2.2.5:
How to alter a figure template / 3.2.3.2:
Common formatting mistakes in figures / 3.2.3.3:
Common stylistic mistakes in figures / 3.2.3.4:
Tips and tricks for figures / 3.2.3.5:
How to create and cross-reference a table template / 3.2.4:
How to alter a table template / 3.2.4.2:
Common typesetting mistakes / 3.2.4.3:
Common stylistic mistakes in tables / 3.2.4.4:
Tips and tricks for tables / 3.2.4.5:
Front matter / 3.2.5:
Controlling page numbers / 3.2.5.1:
Table of contents / 3.2.5.2:
Back matter / 3.2.6:
Appendices / 3.2.6.1:
Indices / 3.2.6.2:
Using Multiple Templates / 3.3:
Controlling styles / 3.3.1:
Switching between single-column and double-column formats / 3.3.2:
Master documents / 3.3.3:
Practice Problems / 3.4:
Additional Resources / 3.4.1:
Using Bibliographic Databases / 3.6:
Why Use a Bibliographic Database? / 4.1:
Choice of Software / 4.3:
Using Endnote / 4.4:
Setting up the interface / 4.4.1:
Adding references / 4.4.2:
Citing references / 4.4.3:
Sharing a Database / 4.5:
Numbering the database entries / 4.5.1:
Compatibility with BiBTeX / 4.5.2:
Formatting References / 4.6:
Planning, Drafting, and Editing Documents / 4.7:
Definition Stage / 5.1:
Select your team members / 5.2.1:
Hold a kick-off meeting / 5.2.2:
Analyze the audience / 5.2.3:
Formulate the purpose / 5.2.4:
Persuasion / 5.2.4.1:
Exposition / 5.2.4.2:
Instruction / 5.2.4.3:
Select the optimum combination of STREAM Tools / 5.2.5:
Preparation Stage / 5.3:
Evaluate historical documents / 5.3.1:
Journal articles / 5.3.1.1:
Proceedings/papers / 5.3.1.2:
Theses and dissertations / 5.3.1.3:
Proposals / 5.3.1.4:
Reports / 5.3.1.5:
Populate the file repository / 5.3.2:
Create a comprehensive outline of the document / 5.3.3:
Using deductive structures / 5.3.3.1:
Using Microsoft Word's Outline feature / 5.3.3.2:
Populate all sections with "yellow text" / 5.3.4:
Distribute writing tasks among team members / 5.3.5:
Choose a drafting strategy / 5.3.5.1:
Synchronize writing styles / 5.3.5.2:
Writing Stage / 5.4:
Enter content / 5.4.1:
Legacy content / 5.4.1.1:
New content / 5.4.1.2:
Control versions of shared files / 5.4.1.3:
Request that team members submit their drafts / 5.4.2:
Verify that each section is headed in the right direction / 5.4.3:
Construct the whole document / 5.4.4:
Revise for content and distribute additional writing tasks / 5.4.5:
Comprehensive editing / 5.4.5.1:
STREAM Tools Editorial Mark-up table (STEM Table) / 5.4.5.2:
Strategies for editing electronic copy using Microsoft Word--an overview of Microsoft Word's commenting, reviewing, and proofing features / 5.4.5.3:
Distribute additional writing tasks / 5.4.6:
Completion Stage / 5.5:
Copy edit the document / 5.5.1:
Send out for a final review of content and clarity / 5.5.2:
Proofread the document / 5.5.3:
Submit the document / 5.5.4:
Conduct the final process-improvement review session / 5.5.5:
Building High Quality Writing Teams / 5.6:
Understanding the Benefits and Challenges of Teamwork / 6.1:
The payoff of teamwork / 6.2.1:
Some principle challenges of teamwork / 6.2.2:
Identifying Team Goals and Assigning Member Roles / 6.3:
Define roles and procedures clearly / 6.3.1:
Define team roles / 6.3.1.1:
Define team procedures / 6.3.1.2:
Managing Teamwork at a Distance / 6.4:
Building trust in virtual teams / 6.4.1:
Demonstrating sensitivity to cultural differences / 6.4.2:
Selecting Communication Tools To Support Teamwork / 6.5:
Wikis / 6.5.1:
Creating a wiki / 6.5.1.1:
Editing / 6.5.1.2:
Organizing / 6.5.1.3:
Monitoring edits / 6.5.1.4:
Other suggestions for wiki use / 6.5.1.5:
SharePoint / 6.5.2:
Lists / 6.5.2.1:
Web pages / 6.5.2.2:
Alerts and site management / 6.5.2.3:
Assuring Quality Writing / 6.6:
Choosing the Best Words 278 / 7.1:
Choose strong words / 7.2.1:
Use strong nouns and verbs / 7.2.1.1:
Choose words with the right level of formality / 7.2.1.2:
Avoid weak words / 7.2.2:
Check for confusing or frequently misused words / 7.2.2.1:
Avoid double negatives, and change negatives to affirmatives / 7.2.2.2:
Avoid changing verbs to nouns / 7.2.2.3:
Delete meaningless words and modifiers / 7.2.2.4:
Steer clear of jargon / 7.2.2.5:
Avoid sexist or discriminatory language / 7.2.2.6:
Writing Strong Sentences / 7.3:
Write economically / 7.3.1:
Include a variety of sentence types / 7.3.2:
Avoiding Weak Sentence Construction / 7.4:
Comma splices / 7.4.1.1:
Fragments / 7.4.1.2:
Fused or run-on sentences / 7.4.1.3:
Misplaced, dangling, or two-way modifiers / 7.4.1.4:
Faulty parallelism / 7.4.1.5:
Punctuating For Clarity / 7.5:
End punctuation / 7.5.1:
Periods / 7.5.1.1:
Question marks / 7.5.1.2:
Exclamation points / 7.5.1.3:
Commas / 7.5.2:
Semicolons / 7.5.3:
Colons / 7.5.4:
Apostrophes / 7.5.5:
Dashes and hyphens / 7.5.6:
Final Considerations / 7.6:
Abbreviations and acronyms / 7.6.1:
Capitalization / 7.6.2:
Numbers / 7.6.3:
Dates / 7.6.4:
Fractions and percentages / 7.6.5:
Units of measure / 7.6.6:
A Final Note on Grammar / 7.7:
Concluding Remarks / 7.8:
Business Case / 8.1:
Frequently Asked Questions / 8.3:
Success Stories / 8.4:
Additional Reading / 8.5:
Useful books and articles / 8.5.1:
Useful weblinks / 8.5.2:
EXERCISES / 8.6:
Preface
Acknowledgments
Introduction / Chapter 1:
22.
図書
Ulrich Schubert, Nicola Hüsing
出版情報:
Weinheim : Wiley-VCH, c2019 xviii, 404 p. ; 25 cm
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Preface
Acknowledgements
Abbreviations
Introduction / 1:
Solid-State Reactions / 2:
Reactions Between Solid Compounds / 2.1:
Ceramic Method / 2.1.1:
General Aspects of Solid-State Reactions / 2.1.1.1:
Facilitating Solid-State Reactions / 2.1.1.2:
Mechanochemical Synthesis / 2.1.2:
Carbothermal Reduction / 2.1.3:
Combustion Synthesis / 2.1.4:
Solution Combustion Synthesis / 2.1.4.1:
Solid-Gas Reactions / 2.2:
Ceramics Processing / 2.3:
Sintering / 2.3.1:
Intercalation Reactions / 2.4:
Mechanistic Aspects / 2.4.1:
Preparative Methods / 2.4.2:
Intercalation of Polymers in Layered Systems / 2.4.3:
Pillaring of Layered Compounds / 2.4.4:
Further Reading
Formation of Solids from the Gas Phase / 3:
Chemical Vapour Transport / 3.1:
Halogen Lamps / 3.1.1:
Transport Reactions / 3.1.2:
Chemical Vapour Deposition / 3.2:
General Aspects / 3.2.1:
Techniques / 3.2.2:
Metal CVD / 3.2.3:
Silicon and Aluminium / 3.2.3.1:
Tungsten / 3.2.3.2:
Copper / 3.2.3.3:
CVD of Carbon / 3.2.4:
CVD of Binary and Multinary Compounds / 3.2.5:
Metal Oxides / 3.2.5.1:
Metal Nitrides / 3.2.5.2:
Metal Chalcogenides and Pnictides / 3.2.5.3:
Aerosol-Assisted CVD / 3.2.6:
Chemical Vapour Infiltration / 3.2.7:
Gas-Phase Powder Syntheses / 3.3:
Formation of Solids from Solutions and Melts / 4:
Glass / 4.1:
The Structural Theory of Glass Formation / 4.1.1:
Crystallization Versus Glass Formation / 4.1.2:
Glass Melting / 4.1.3:
Phase Separation / 4.1.4:
Metallic Glasses / 4.1.5:
Crystallization from Solution / 4.2:
Monodispersity / 4.2.1:
Shape Control of Crystals / 4.2.2:
Non-classical Crystallization / 4.2.3:
Biomineralization / 4.2.4:
Biogenic Materials / 4.2.4.1:
Bioinspired Materials Chemistry / 4.2.4.2:
Electrodeposition / 4.3:
Colloids / 4.3.1:
Electrodeposition of Ceramics / 4.3.2:
Solvothermal Processes / 4.4:
Fundamentals / 4.4.1:
Growing Single Crystals / 4.4.2:
Solvothermal Synthesis / 4.4.3:
Synthetic Calcium Phosphate Biomaterials / 4.4.3.1:
Zeolites / 4.4.3.3:
Sol-Gel Processes / 4.5:
The Chemistry of Alkoxide Precursors / 4.5.1:
Hydrolysis and Condensation / 4.5.2:
Silica-Based Materials / 4.5.2.1:
Metal Oxide-Based Materials / 4.5.2.2:
The Sol-Gel Transition (Gelation) / 4.5.3:
Aging and Drying / 4.5.4:
Nonhydrolytic Sol-Gel Processes / 4.5.5:
Inorganic-Organic Hybrid Materials / 4.5.6:
Aerogels / 4.5.7:
Preparation and Modification of Inorganic Polymers / 5:
Synthesis and Crosslinking / 5.1:
Copolymers / 5.1.2:
Polysiloxanes (Silicones) / 5.2:
Properties and Applications / 5.2.1:
Structure / 5.2.2:
Preparation / 5.2.3:
Curing ('Vulcanizing') / 5.2.4:
Polyphosphazenes / 5.3:
Preparation and Modification / 5.3.1:
Polysilanes / 5.4:
Polycarbosilanes / 5.4.1:
Polysilazanes and Related Polymers / 5.6:
Polymers with B-N Backbones / 5.7:
Other Inorganic Polymers / 5.8:
Other Phosphorus-Containing Polymers / 5.8.1:
Polymers with S-N Backbones / 5.8.2:
Metallopolymers / 5.8.3:
Polymer-to-Ceramic Transformation / 5.9:
Self-Assembly / 6:
Self-Assembled Monolayers / 6.1:
Metal-Organic Frameworks / 6.2:
Modularity of the Structures / 6.2.1:
Synthesis and Modification / 6.2.2:
Supramolecular Arrangements of Surfactants and Block Copolymers / 6.3:
Layer-by-Layer Assembly / 6.4:
Templating / 7:
Introduction to Porosity and High Surface Area Materials / 7.1:
Infiltration and Coating of Templates / 7.2:
Replica Technique / 7.2.1:
Sacrificial Templates / 7.2.2:
Colloidal Crystals / 7.2.2.1:
Hollow Particles / 7.2.2.2:
Direct Foaming / 7.2.3:
Nanocasting / 7.2.4:
In Situ Formation of Templates / 7.3:
Breath Figures / 7.3.1:
Freeze Casting / 7.3.2:
Supramolecular Assemblies of Amphiphiles / 7.3.3:
Synthesis of Periodic Mesoporous Silicas / 7.3.3.1:
Evaporation-Induced Self-Assembly / 7.3.3.2:
Incorporation of Organic Groups / 7.3.3.3:
Reorganization and Transformation Processes / 7.4:
Pseudomorphic Transformation / 7.4.1:
Kirkendall Effect / 7.4.2:
Galvanic Replacement / 7.4.3:
Phase Separation and Leaching / 7.4.4:
Nanomaterials / 8:
Properties of Nanomaterials / 8.1:
Properties Due to Surface Effects / 8.1.1:
Properties of Nanocrystalline Materials / 8.1.2:
Catalytic Properties / 8.1.3:
Optical Properties / 8.1.4:
Electrical Properties / 8.1.5:
Magnetic Properties / 8.1.6:
Syntheses of Nanoparticles / 8.2:
Severe Plastic Deformation / 8.2.1:
Formation from Vapours / 8.2.2:
Formation from Solution / 8.2.3:
Surface Modification with Organic Groups / 8.2.4:
One-Dimensional Nanostructures / 8.3:
Nanowires and Nanorods / 8.3.1:
Nanotubes / 8.3.2:
Carbon Nanotubes / 8.3.2.1:
Titania Nanotubes / 8.3.2.2:
Two-Dimensional Nanomaterials / 8.4:
Graphene / 8.4.1:
Other 2D Nanomaterials / 8.4.2:
Heterostructures and Composites / 8.5:
Core-Shell Nanoparticles / 8.5.1:
Vertical 2D Heterostructures / 8.5.2:
Polymer-Matrix Nanocomposites / 8.5.3:
Supported Metal Nanoparticles / 8.5.4:
Glossary
Index
Preface
Acknowledgements
Abbreviations
23.
図書
editors, Hisham Z. Massoud, Edward H. Poindexter, C. Robert Helms
24.
図書
Z.A. Kazei ... [et al.] ; Herausgeber, H.P.J. Wijn
目次情報:
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Introductory material
Magnetic properties of garnets / 4:
Iron garnets / P. Novak4.1:
Introduction / 4.1.1:
General remarks / 4.1.1.1:
List of frequently used symbols and abbreviations / 4.1.1.2:
Magnetic properties / 4.1.2:
Magnetic moments and molecular field data / 4.1.2.1:
Saturation magnetization and Curie temperature / 4.1.2.1.1:
Molecular-field- and exchange constants / 4.1.2.1.2:
Magnetic moments of the rare earth ions / 4.1.2.1.3:
Magnetic phase transitions / 4.1.2.2:
Spontaneous spin-reorientational transitions / 4.1.2.2.1:
Field induced transitions / 4.1.2.2.2:
Magnetocrystalline anisotropy / 4.1.2.3:
Cubic anisotropy / 4.1.2.3.1:
Non-cubic anisotropy / 4.1.2.3.2:
Ferromagnetic resonance (FMR) / 4.1.2.4:
Resonance field / 4.1.2.4.1:
FMR line width / 4.1.2.4.2:
g-factor / 4.1.2.4.3:
Spin waves, magnetostatic modes and relaxation / 4.1.2.5:
Spin waves and magnetostatic modes / 4.1.2.5.1:
Non-linear effects and relaxation / 4.1.2.5.2:
Nuclear magnetic resonance (NMR) / 4.1.2.6:
Mossbauer spectroscopy / 4.1.2.7:
Magnetic domains (stripe and bubble domains) / 4.1.2.8:
Static properties / 4.1.2.8.1:
Dynamic properties / 4.1.2.8.2:
Magnetoelastic properties / 4.1.3:
Magnetostriction / 4.1.3.1:
Magnetoelastic waves / 4.1.3.2:
Elastic properties / 4.1.4:
Optical and magnetooptical properties / 4.1.5:
Optical properties / 4.1.5.1:
Absorption of light / 4.1.5.1.1:
Reflection of light / 4.1.5.1.2:
Refractive index / 4.1.5.1.3:
Magnetooptical properties / 4.1.5.2:
Faraday rotation / 4.1.5.2.1:
Magnetic circular dichroism (MCD) / 4.1.5.2.2:
Kerr effects / 4.1.5.2.3:
Magnetic linear birefringence (MLB) and nonmagnetic linear birefringence / 4.1.5.2.4:
Magnetic linear dichroism (MLD) / 4.1.5.2.5:
Photoinduced effects / 4.1.5.3:
Thermal properties / 4.1.6:
Electrical properties / 4.1.7:
Electrical conductivity / 4.1.7.1:
Magnetoresistance and magnetoelectric effect / 4.1.7.2:
Crystal structure / 4.1.8:
References for 4.1 / 4.1.9:
List of iron garnets in Vols.4A, 4B, 12A and 27E / 4.1.10:
Non-iron garnets / Z.A. Kazei ; N.P. Kolmakova ; V.I. Sokolov4.2:
List of frequently used symbols and abbreviation / 4.2.1:
Magnetic susceptibility / 4.2.2:
Rare earth garnets / 4.2.2.1:
3d-ion garnets / 4.2.2.2:
Magnetization and magnetic structure / 4.2.3:
Magnetic moments and magnetic anisotropies of terbium, dysprosium and holmium aluminum garnets / 4.2.3.1:
Magnetic moments of rare earth gallium garnets / 4.2.3.2:
Magnetic neutron scattering in dysprosium aluminum garnets / 4.2.3.3:
Magnetic neutron scattering in terbium, holmium and dysprosium gallium garnets / 4.2.3.4:
Magnetization and magnetic phase transitions in manganese germanium garnets / 4.2.3.5:
Garnets with several 3d-ions / 4.2.3.6:
Results of magnetic resonance experiments / 4.2.4:
Electron paramagnetic resonance of paramagnetic metal ions in diamagnetic garnets / 4.2.4.1:
Electron paramagnetic resonance of rare earth ions in diamagnetic garnets / 4.2.4.2:
Electron paramagnetic resonance of impurities in paramagnetic garnets / 4.2.4.3:
Nuclear magnetic resonance / 4.2.4.4:
Antiferromagnetic resonance / 4.2.4.5:
Crystal-field parameters / 4.2.5:
Optical spectra and index of refraction / 4.2.5.2:
Information on colour centres / 4.2.5.3:
Further references for results from optical measurements / 4.2.5.4:
Electron spin-lattice relaxation of paramagnetic ions in garnets / 4.2.5.5:
Heat capacity / 4.2.8:
Derived thermodynamic functions / 4.2.8.2:
Debye temperature / 4.2.8.3:
Thermal expansion / 4.2.8.4:
Kapitza conductance / 4.2.8.5:
Thermal conductivity / 4.2.8.6:
Ultrasound attenuation / 4.2.8.7:
Elastic and photoelastic properties / 4.2.9:
Elastic and photoelastic constants at room temperature / 4.2.9.1:
Temperature dependences / 4.2.9.2:
Magnetostriction of rare earth garnets / 4.2.10:
Magnetostriction of antiferromagnetic garnets with 3d-ions / 4.2.10.2:
Electrical conductivity and thermoelectric power / 4.2.11:
Photoconductivity / 4.2.11.2:
References for 4.2 / 4.2.12:
List of non-iron garnets in Vols.4B, 12A and 27E / 4.2.13:
Introductory material
Magnetic properties of garnets / 4:
Iron garnets / P. Novak4.1:
25.
図書
Gabriel A. Pall ; forewords by A. Blantin [i.e. Blanton] Godfrey, Stephan H. Haeckelsa
出版情報:
Boca Raton : St. Lucie Press, c2000 xxix, 325 p. ; 25 cm
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The Case for Process Centering / Part I:
Doing Business in the Face of Change / Chapter 1.:
The Changing Business Environment / 1.1:
The Fundamental Success Factors / 1.1.1:
The New Challenge: Accelerated and Unpredictable Change / 1.1.2:
The Results of Change: What Is Really Happening? / 1.1.3:
The History of Change / 1.1.4:
Where Are We Today? / 1.2:
Problems with Today's Corporation / 1.2.1:
Today's Challenge / 1.2.2:
Summary / 1.3:
Traditional Ways of Coping with Change / Chapter 2.:
The Nature and Sources of Change / 2.1:
The Ping-Pong Response of Organizations to Change / 2.1.1:
Today's Customer-Driven Environment / 2.1.2:
Competition in the 21st Century / 2.1.3:
Traditional Responses to Change / 2.2:
Total Quality Management / 2.2.1:
Business Process Reengineering / 2.2.2:
Limitations of Traditional Reengineering / 2.2.3:
Limitations of the Traditional Approaches to Process Change / 2.3:
The Imperfection of Customer Needs / 2.3.1:
The Process Paradox / 2.3.2:
What Now? A Change in Managerial Attitudes / 2.4:
The Economic Value in Process Centering / 2.5:
Managing Work for Value Enhancement / 3.1:
The Value Contribution of Work / 3.1.1:
The Questionable Value Contribution of Downsizing / 3.1.2:
Investment in Business Processes for Economic Value Added / 3.2:
Impact on the Customer / 3.2.1:
Relevance to Overall Strategic Direction / 3.2.2:
The Viability of the Process / 3.2.3:
The Worth of the Process / 3.2.4:
Process Cost / 3.3:
The Cost of Conformance / 3.3.1:
The Cost of Nonconformance / 3.3.2:
The Cost of Quality as Management Tool / 3.3.3:
Productivity and Value / 3.3.4:
The Intellectual Value in Process Centering / 3.4:
The Emergence of Intellectual Assets / 4.1:
Intellectual Value Added / 4.2:
Customer Capital / 4.2.1:
Intellectual Capital / 4.2.2:
Net Added Value of Information Processed / 4.2.3:
The Role of Knowledge Management in Process Design / 4.3:
Process Centering Fundamentals / 4.4:
Understanding Processes / Chapter 5.:
Process Fundamentals / 5.1:
Classic Definitions / 5.1.1:
Process Control / 5.1.2:
Process Capability / 5.1.3:
Core Concepts of Process Thinking / 5.2:
Subject Process / 5.2.1:
Example for Subject Processes / 5.2.2:
Process Feedback / 5.2.3:
Process Quality / 5.2.4:
The Concept of Social Processes: The Human Element / 5.3:
Open Systems / 5.3.1:
Business Processes / 5.3.2:
Process Centering: The Basic Approach / 5.4:
Process Centering as the Prerequisite for Change / 6.1:
Definition of Process Centering / 6.1.1:
Commitment Management / 6.1.2:
Process Reengineering / 6.1.3:
Organizational Adaptability / 6.1.4:
Process Performance and Adaptability / 6.2:
Definitions / 6.2.1:
Adaptive Loops in Processes / 6.2.2:
The Superiority of Process Centering / 6.2.3:
Commitment Coordination and Process Alignment / 6.2.4:
What Needs To Be Done / 6.2.5:
Process Centering: The Response to Change / 6.3:
Response to Change / 7.1:
Upsizing and Growth / 7.1.1:
The Nature of Change / 7.1.2:
Response Characteristics / 7.2:
Information Intensity and Process Adaptability / 7.2.1:
Process Robustness / 7.2.2:
The Economics of Increasing Returns / 7.2.3:
Response Strategies for Growth / 7.3:
Processes as Product Offerings / 7.3.1:
Market Preempting / 7.3.2:
Process Investment Strategies for Growth / 7.3.3:
Process Centering: Role of the Individual / 7.4:
Process People / 8.1:
Empowerment, Commitment and Accountability / 8.1.1:
The Process Professional / 8.1.2:
The Process Team / 8.1.3:
Process Work / 8.2:
Multifunctional Work / 8.2.1:
Multidimensional Work / 8.2.2:
Valuable Work / 8.2.3:
Productive Work / 8.2.4:
Knowledge-Based Work / 8.2.5:
Rewarding Work / 8.2.6:
Work-Driven Shift in Personal Characteristics and Skills / 8.2.7:
Process-Related Roles and Responsibilities / 8.3:
Process Centering: The Management Team / 8.4:
Overseers and Implementers / 9.1:
Enterprise Transformation Executive / 9.1.1:
Enterprise Transformation Council / 9.1.2:
Business Process Management Executive / 9.1.3:
Business Process Owner / 9.1.4:
Business Process Management Team / 9.1.5:
Business Process Management Team Leader / 9.1.6:
Business Process Stakeholders / 9.1.7:
Process Management Resources / 9.2:
Process Contract / 9.2.1:
Process Training / 9.2.2:
Information Technology: The Response Integrator / 9.3:
Change and Information Intensity / 10.1:
Information Technology / 10.1.1:
Information Management for Adaptability / 10.2:
Two Key Process Components / 10.2.1:
Basic Functional Capabilities / 10.2.2:
Technology Assessment / 10.2.3:
Networked Collaborative Systems / 10.3:
Employee Training / 10.3.1:
Collaborative Work Practices / 10.3.2:
Wide-Area Networks / 10.3.3:
Groupware and Collaborative Computing / 10.3.4:
Fundamentals of Online Collaborative Systems / 10.3.5:
Collaborative System Architecture / 10.3.6:
Information Technology as Integrator / 10.4:
Deductive Thinking / 10.4.1:
Inductive Thinking / 10.4.2:
The Need Paradox / 10.4.3:
Process-Centered Management / 10.5:
Basics of Business Process Management / Chapter 11.:
Process Management Overview / 11.1:
The Process Management Roadmap / 11.1.1:
Classification of Business Processes / 11.1.2:
Process Planning / 11.2:
Process Identification and Mapping / 11.2.1:
Process Selection for Reengineering / 11.2.2:
Process Definition / 11.2.3:
Customer Requirements / 11.2.4:
Effective Process-Centered Management / 11.3:
The Operational View / 12.1:
The Two Dimensions of Process Management / 12.1.1:
Commitment Management and Communications / 12.1.2:
Process Resources / 12.1.3:
Process Measurements and Controls / 12.1.4:
Process Adaptability / 12.1.5:
Process Centering / 12.2:
Process Structure: The Holistic View / 12.3:
The Dynamic Business Process / 13.1:
The Holistic Process Model / 13.1.1:
The Workflow and Adaptive Loops / 13.1.3:
Alignment Engineering / 13.2:
Process Performance and Resources / 13.3:
Performance Measurement and Control / 14.1:
Process Measurement / 14.1.1:
Cycle-Time Reduction / 14.1.2:
Cycle-Time Basics / 14.2.1:
Business Cycle Time / 14.2.2:
Time To Respond / 14.2.3:
Time to Commitment / 14.2.4:
Performance Cycle Time / 14.2.5:
Human Resources and Adaptive Management Organization / 14.3:
Groupware / 14.4:
Enterprise Applications / 14.4.2:
Business Processes as Assets / 14.4.3:
Design for Adaptability / 14.5:
Traditional Design Approach to Adaptability / 15.1:
The Holistic Design Approach / 15.2:
Process Design Concepts / 15.2.1:
Design of New Process Structure / 15.2.2:
Redesign of Existing Process Structure / 15.2.3:
Design for Robust Commitments / 15.3:
Design for Process Adaptability / 16.1:
Backbone Network of Commitments / 16.1.1:
Workflow Reconfiguration / 16.1.2:
Design for Accountability / 16.2:
Culture of Accountability / 16.3:
Continuous Improvement and Planning / 16.4:
Process Improvement / 16.4.1:
Launching the Process / 16.4.2:
Process Implementation Planning / 17.1:
Integrated Implementation Planning / 17.1.1:
The Three Steps of Implementation Planning / 17.1.2:
Planning for Implementation Problems / 17.2:
Company-Wide Constraints / 17.2.1:
Process-Level Impediments / 17.2.2:
Cultural Resistance / 17.2.3:
Technology Constraints / 17.2.4:
Planning for Action / 17.3:
Process Deployment / 17.4:
The Process-Centered Organization in Operation / 17.5:
The Business Process Level / 18.1:
Process Ownership / 18.1.1:
Accountability Framework / 18.1.2:
Process Stakeholders / 18.1.3:
Continuous Process Assessment / 18.1.4:
The Enterprise Level / 18.2:
Operational Responsibilities / 18.2.1:
The Millennium Enterprise / 18.2.2:
Appendixes / 18.3:
The Tools of Process Centering / Appendix 1.:
Stand-Alone Software Tools / A1.1:
Process Modeling Tools / A1.1.1:
Process Documentation Tools / A1.1.2:
Process Simulation Tools / A1.1.3:
Process Mapping-Related Activity-Based Costing Tools / A1.1.4:
Project Management Tools / A1.1.5:
Groupware/Software Tools for Team Effectiveness / A1.1.6:
ERP-Based Software Tools / A1.2:
SAP / A1.2.1:
Oracle / A1.2.2:
Abbreviations and Acronyms / Appendix 2.:
Glossary
Endnotes
Bibliography
Index
The Case for Process Centering / Part I:
Doing Business in the Face of Change / Chapter 1.:
The Changing Business Environment / 1.1:
26.
図書
text, translation and notes by J.A.F. Roodbergen ; edited by S.D. Joshi
27.
図書
Michael Beetz
目次情報:
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Abstract
Acknowledgements
List of Figures
Introduction / 1:
The Approach / 1.1:
Technical Challenges / 1.2:
Introductory Example / 1.3:
Motivation / 1.4:
Relevance for Autonomous Robot Control / 1.4.1:
Relevance for AI Planning / 1.4.2:
The Computational Problem and Its Solution / 1.5:
The Computational Problem / 1.5.1:
The Computational Model / 1.5.2:
Contributions / 1.6:
Outline of the Book / 1.7:
Reactivity / 2:
The DeliveryWorld / 2.1:
The World / 2.1.1:
Commands and Jobs / 2.1.2:
The Robot / 2.1.3:
Justification of the DeliveryWorld / 2.1.4:
The Implementation of Routine Activities / 2.2:
Plan Steps vs. Concurrent Control Processes / 2.2.1:
Interfacing Continuous Control Processes / 2.2.2:
Coordinating Control Processes / 2.2.3:
Synchronization of Concurrent Control Threads / 2.2.4:
Failure Recovery / 2.2.5:
Perception / 2.2.6:
State, Memory, and World Models / 2.2.7:
The Structure of Routine Activities / 2.2.8:
The Structured Reactive Controller / 2.3:
Behavior and Planning Modules / 2.3.1:
The Body of the Structured Reactive Controller / 2.3.2:
Global Fluents, Variables, and the Plan Library / 2.3.3:
The RPL Runtime System / 2.3.4:
Summary and Discussion / 2.4:
Planning / 3:
The Structured Reactive Plan / 3.1:
Plans as Syntactic Objects / 3.1.1:
RPL as a Plan Language / 3.1.2:
The Computational Structure / 3.2:
The "Criticize-Revise" Cycle / 3.2.1:
The "Criticize" Step / 3.2.2:
The "Revise" Step / 3.2.3:
The XFRM Planning Framework / 3.3:
Anticipation and Forestalling of Behavior Flaws / 3.4:
The Detection of Behavior Flaws / 3.4.1:
Behavior Flaws and Plan Revisions / 3.4.2:
The Diagnosis of Behavior Flaws / 3.4.3:
Transparent Reactive Plans / 3.5:
Declarative Statements / 4.1:
RPL Construct Descriptions / 4.1.1:
Achievement Goals / 4.1.2:
Perceptions / 4.1.3:
Beliefs / 4.1.4:
Other Declarative Statements / 4.1.5:
Using Declarative Statements / 4.1.6:
Routine Plans / 4.2:
The Plan Library / 4.3:
Behavior Modules / 4.3.1:
Low-level Plans / 4.3.2:
High-level Plans / 4.3.3:
Discussion / 4.4:
Representing Plan Revisions / 5:
Conceptualization / 5.1:
Making Inferences / 5.2:
Some Examples / 5.2.1:
Accessing Code Trees / 5.2.2:
Predicates on Plan Interpretations / 5.2.3:
Predicates on Timelines / 5.2.4:
Timelines and Plan Interpretation / 5.2.5:
Expressing Plan Revisions / 5.3:
XFRML - The Implementation / 5.4:
Forestalling Behavior Flaws / 5.5:
FAUST / 6.1:
The Behavior Critic / 6.1.1:
Detecting Behavior Flaws: Implementation / 6.1.2:
Diagnosing the Causes of Behavior Flaws: Implementation / 6.1.3:
The Bug Class "Behavior-Specification Violation" / 6.1.4:
The Elimination of Behavior Flaws / 6.1.5:
The Plan Revisions for the Example / 6.2:
Some Behavior Flaws and Their Revisions / 6.3:
Perceptual Confusion / 6.3.1:
Missed Deadlines / 6.3.2:
Planning Ongoing Activities / 6.4:
Extending RPL / 7.1:
The RUNTIME-PLAN Statement / 7.1.1:
Plan Swapping / 7.1.2:
Making Planning Assumptions / 7.1.3:
Deliberative Controllers / 7.2:
Improving Iterative Plans by Local Planning / 7.2.1:
Plan Execution a la Shakey / 7.2.2:
Execution Monitoring and Replanning / 7.2.3:
Recovering from Execution Failures / 7.2.4:
Some Robot Control Architectures / 7.2.5:
The Controller in the Experiment / 7.3:
Evaluation / 7.4:
Analysis of the Problem / 8.1:
Assessment of the Method / 8.2:
Description of the Method / 8.2.1:
Evaluation of the Method / 8.2.2:
Demonstration / 8.3:
Evaluating SRCs in Standard Situations / 8.3.1:
Comparing SRCs with the Appropriate Fixed Controller179 / 8.3.2:
Problems that Require SRCs / 8.3.3:
Related Work / 8.4:
Control Architectures for Competent Physical Agents / 8.4.1:
Control Languages for Reactive Control / 8.4.2:
Robot Planning / 8.4.3:
Conclusion / 9:
What Do Structured Reactive Controllers Do? / 9.1:
Why Do Structured Reactive Controllers Work? / 9.2:
Do Structured Reactive Controllers Work for Real Robots? / 9.3:
References
Abstract
Acknowledgements
List of Figures
28.
図書
Charles E. Baukal, Jr.
出版情報:
Boca Raton, Fla. : CRC Press, c2000 545 p. ; 27 cm
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Introduction / Chapter 1:
Importance of Heat Transfer in Industrial Combustion / 1.1:
Energy Consumption / 1.1.1:
Research Needs / 1.1.2:
Literature Discussion / 1.2:
Heat Transfer / 1.2.1:
Combustion / 1.2.2:
Heat Transfer and Combustion / 1.2.3:
Combustion System Components / 1.3:
Burners / 1.3.1:
Competing Priorities / 1.3.1.1:
Design Factors / 1.3.1.2:
General Burner Types / 1.3.1.3:
Combustors / 1.3.2:
Design Considerations / 1.3.2.1:
General Classifications / 1.3.2.2:
Heat Load / 1.3.3:
Process Tubes / 1.3.3.1:
Moving Substrate / 1.3.3.2:
Opaque Materials / 1.3.3.3:
Transparent Materials / 1.3.3.4:
Heat Recovery Devices / 1.3.4:
Recuperators / 1.3.4.1:
Regenerators / 1.3.4.2:
References
Some Fundamentals of Combustion / Chapter 2:
Combustion Chemistry / 2.1:
Fuel Properties / 2.1.1:
Oxidizer Composition / 2.1.2:
Mixture Ratio / 2.1.3:
Operating Regimes / 2.1.4:
Combustion Properties / 2.2:
Combustion Products / 2.2.1:
Air and Fuel Preheat Temperature / 2.2.1.1:
Fuel Composition / 2.2.1.4:
Flame Temperature / 2.2.2:
Oxidizer and Fuel Composition / 2.2.2.1:
Oxidizer and Fuel Preheat Temperature / 2.2.2.2:
Available Heat / 2.2.3:
Flue Gas Volume / 2.2.4:
Exhaust Product Transport Properties / 2.3:
Density / 2.3.1:
Specific Heat / 2.3.2:
Thermal Conductivity / 2.3.3:
Viscosity / 2.3.4:
Prandtl Number / 2.3.5:
Lewis Number / 2.3.6:
Heat Transfer Modes / Chapter 3:
Convection / 3.1:
Forced Convection / 3.2.1:
Forced Convection from Flames / 3.2.1.1:
Forced Convection from Outside Combustor Wall / 3.2.1.2:
Forced Convection from Hot Gases to Tubes / 3.2.1.3:
Natural Convection / 3.2.2:
Natural Convection from Flames / 3.2.2.1:
Natural Convection from Outside Combustor Wall / 3.2.2.2:
Radiation / 3.3:
Surface Radiation / 3.3.1:
Nonluminous Radiation / 3.3.2:
Theory / 3.3.2.1:
Combustion Studies / 3.3.2.2:
Luminous Radiation / 3.3.3:
Conduction / 3.3.3.1:
Steady-State Conduction / 3.4.1:
Transient Conduction / 3.4.2:
Phase Change / 3.5:
Melting / 3.5.1:
Boiling / 3.5.2:
Internal Boiling / 3.5.2.1:
External Boiling / 3.5.2.2:
Condensation / 3.5.3:
Heat Sources and Sinks / Chapter 4:
Heat Sources / 4.1:
Combustibles / 4.1.1:
Fuel Combustion / 4.1.1.1:
Volatile Combustion / 4.1.1.2:
Thermochemical Heat Release / 4.1.2:
Equilibrium TCHR / 4.1.2.1:
Catalytic TCHR / 4.1.2.2:
Mixed TCHR / 4.1.2.3:
Heat Sinks / 4.2:
Load / 4.2.1:
Tubes / 4.2.1.1:
Substrate / 4.2.1.2:
Granular Solid / 4.2.1.3:
Molten Liquid / 4.2.1.4:
Surface Conditions / 4.2.1.5:
Wall Losses / 4.2.2:
Openings / 4.2.3:
Gas Flow Through Openings / 4.2.3.1:
Material Transport / 4.2.4:
Computer Modeling / Chapter 5:
Combustion Modeling / 5.1:
Modeling Approaches / 5.2:
Fluid Dynamics / 5.2.1:
Moment Averaging / 5.2.1.1:
Vortex Methods / 5.2.1.2:
Spectral Methods / 5.2.1.3:
Direct Numerical Simulation / 5.2.1.4:
Geometry / 5.2.2:
Zero-Dimensional Modeling / 5.2.2.1:
One-Dimensional Modeling / 5.2.2.2:
Multi-dimensional Modeling / 5.2.2.3:
Reaction Chemistry / 5.2.3:
Nonreacting Flows / 5.2.3.1:
Simplified Chemistry / 5.2.3.2:
Complex Chemistry / 5.2.3.3:
Nonradiating / 5.2.4:
Participating Media / 5.2.4.2:
Time Dependence / 5.2.5:
Steady State / 5.2.5.1:
Transient / 5.2.5.2:
Simplified Models / 5.3:
Computational Fluid Dynamic Modeling / 5.4:
Increasing Popularity of CFD / 5.4.1:
Potential Problems of CFD / 5.4.2:
Equations / 5.4.3:
Chemistry / 5.4.3.1:
Multiple Phases / 5.4.3.4:
Boundary and Initial Conditions / 5.4.4:
Inlets and Outlets / 5.4.4.1:
Surfaces / 5.4.4.2:
Symmetry / 5.4.4.3:
Discretization / 5.4.5:
Finite Difference Technique / 5.4.5.1:
Finite Volume Technique / 5.4.5.2:
Finite Element Technique / 5.4.5.3:
Mixed / 5.4.5.4:
None / 5.4.5.5:
Solution Methods / 5.4.6:
Model Validation / 5.4.7:
Industrial Combustion Examples / 5.4.8:
Modeling Burners / 5.4.8.1:
Modeling Combustors / 5.4.8.2:
Experimental Techniques / Chapter 6:
Heat Flux / 6.1:
Total Heat Flux / 6.2.1:
Steady-State Uncooled Solids / 6.2.1.1:
Steady-State Cooled Solids / 6.2.1.2:
Steady-State Cooled Gages / 6.2.1.3:
Transient Uncooled Targets / 6.2.1.4:
Transient Uncooled Gages / 6.2.1.5:
Radiant Heat Flux / 6.2.2:
Heat Flux Gage / 6.2.2.1:
Ellipsoidal Radiometer / 6.2.2.2:
Spectral Radiometer / 6.2.2.3:
Other Techniques / 6.2.2.4:
Convective Heat Flux / 6.2.3:
Temperature / 6.3:
Gas Temperature / 6.3.1:
Suction Pyrometer / 6.3.1.1:
Optical Techniques / 6.3.1.2:
Fine Wire Thermocouples / 6.3.1.3:
Line Reversal / 6.3.1.4:
Surface Temperature / 6.3.2:
Embedded Thermocouple / 6.3.2.1:
Infrared Detectors / 6.3.2.2:
Gas Flow / 6.4:
Gas Velocity / 6.4.1:
Pitot Tubes / 6.4.1.1:
Laser Doppler Velocimetry / 6.4.1.2:
Static Pressure Distribution / 6.4.1.3:
Stagnation Velocity Gradient / 6.4.2.1:
Stagnation Zone / 6.4.2.2:
Gas Species / 6.5:
Other Measurements / 6.6:
Physical Modeling / 6.7:
Flame Impingement / Chapter 7:
Experimental Conditions / 7.1:
Configurations / 7.2.1:
Flame Normal to a Cylinder in Crossflow / 7.2.1.1:
Flame Normal to a Hemispherically Nosed Cylinder / 7.2.1.2:
Flame Normal to a Plane Surface / 7.2.1.3:
Flame Parallel to a Plane Surface / 7.2.1.4:
Operating Conditions / 7.2.2:
Oxidizers / 7.2.2.1:
Fuels / 7.2.2.2:
Equivalence Ratios / 7.2.2.3:
Firing Rates / 7.2.2.4:
Reynolds Number / 7.2.2.5:
Nozzle Diameter / 7.2.2.6:
Location / 7.2.2.8:
Stagnation Targets / 7.2.3:
Size / 7.2.3.1:
Target Materials / 7.2.3.2:
Surface Preparation / 7.2.3.3:
Surface Temperatures / 7.2.3.4:
Measurements / 7.2.4:
Semianalytical Heat Transfer Solutions / 7.3:
Equation Parameters / 7.3.1:
Thermophysical Properties / 7.3.1.1:
Sibulkin Results / 7.3.1.2:
Fay and Riddell Results / 7.3.2.2:
Rosner Results / 7.3.2.3:
Comparisons With Experiments / 7.3.3:
Forced Convection (Negligible TCHR) / 7.3.3.1:
Forced Convection with TCHR / 7.3.3.2:
Sample Calculations / 7.3.4:
Laminar Flames Without TCHR / 7.3.4.1:
Turbulent Flames Without TCHR / 7.3.4.2:
Laminar Flames with TCHR
Summary / 7.3.5:
Empirical Heat Transfer Correlations / 7.4:
Flames Impinging Normal to a Cylinder / 7.4.1:
Local Convection Heat Transfer / 7.4.2.1:
Average Convection Heat Transfer / 7.4.2.2:
Average Convection Heat Transfer with TCHR / 7.4.2.3:
Average Radiation Heat Transfer / 7.4.2.4:
Maximum Convection and Radiation Heat Transfer / 7.4.2.5:
Flames Impining Normal to a Hemi-Nosed Cylinder / 7.4.3:
Local Convection Heat Transfer with TCHR / 7.4.3.1:
Flames Impinging Normal to a Plane Surface / 7.4.4:
Flames Parallel to a Plane Surface / 7.4.4.1:
Local Convection Heat Transfer With TCHR / 7.4.5.1:
Local Convection and Radiation Heat Transfer / 7.4.5.2:
Heat Transfer from Burners / Chapter 8:
Open-Flame Burners / 8.1:
Momentum Effects / 8.2.1:
Flame Luminosity / 8.2.2:
Firing Rate Effects / 8.2.3:
Flame Shape Effects / 8.2.4:
Radiant Burners / 8.3:
Perforated Ceramic or Wire Mesh Radiant Burners / 8.3.1:
Flame Impingement Radiant Burners / 8.3.2:
Porous Refractory Radiant Burners / 8.3.3:
Advanced Ceramic Radiant Burners / 8.3.4:
Radiant Wall Burners / 8.3.5:
Radiant Tube Burners / 8.3.6:
Effects on Heat Transfer / 8.4:
Fuel Effects / 8.4.1:
Solid Fuels / 8.4.1.1:
Liquid Fuels / 8.4.1.2:
Gaseous Fuels / 8.4.1.3:
Fuel Temperature / 8.4.1.4:
Oxidizer Effects / 8.4.2:
Oxidizer Temperature / 8.4.2.1:
Staging Effects / 8.4.3:
Fuel Staging / 8.4.3.1:
Oxidizer Staging / 8.4.3.2:
Burner Orientation / 8.4.4:
Hearth-Fired Burners / 8.4.4.1:
Wall-Fired Burners / 8.4.4.2:
Roof-Fired Burners / 8.4.4.3:
Side-Fired Burners / 8.4.4.4:
Heat Recuperation / 8.4.5:
Regenerative Burners / 8.4.5.1:
Recuperative Burners / 8.4.5.2:
Furnace or Flue Gas Recirculation / 8.4.5.3:
Pulse Combustion / 8.4.6:
In-Flame Treatment / 8.5:
Heat Transfer in Furnaces / Chapter 9:
Furnaces / 9.1:
Firing Method / 9.2.1:
Direct Firing / 9.2.1.1:
Indirect Firing / 9.2.1.2:
Heat Distribution / 9.2.1.3:
Load Processing Method / 9.2.2:
Batch Processing / 9.2.2.1:
Continuous Processing / 9.2.2.2:
Hybrid Processing / 9.2.2.3:
Heat Transfer Medium / 9.2.3:
Gaseous Medium / 9.2.3.1:
Vacuum / 9.2.3.2:
Liquid Medium / 9.2.3.3:
Solid Medium / 9.2.3.4:
Rotary Geometry / 9.2.4:
Rectangular Geometry / 9.2.4.2:
Ladle Geometry / 9.2.4.3:
Vertical Cylindrical Geometry / 9.2.4.4:
Furnace Types / 9.2.5:
Reverberatory Furnace / 9.2.5.1:
Shaft Kiln / 9.2.5.2:
Rotary Furnace / 9.2.5.3:
Heat Recovery / 9.3:
Gas Recirculation / 9.3.1:
Flue Gas Recirculation / 9.3.3.1:
Furnace Gas Recirculation / 9.3.3.2:
Lower Temperature Applications / Chapter 10:
Ovens and Dryers / 10.1:
Predryer / 10.2.1:
Dryer / 10.2.2:
Fired Heaters / 10.3:
Reformer / 10.3.1:
Process Heater / 10.3.2:
Heat Treating / 10.4:
Standard Atmosphere / 10.4.1:
Special Atmosphere / 10.4.2:
Higher Temperature Applications / Chapter 11:
Industries / 11.1:
Metals Industry / 11.2:
Ferrous Metal Production / 11.2.1:
Electric Arc Furnace / 11.2.1.1:
Smelting / 11.2.1.2:
Ladle Preheating / 11.2.1.3:
Reheating Furnace / 11.2.1.4:
Forging / 11.2.1.5:
Aluminum Metal Production / 11.2.2:
Minerals Industry / 11.3:
Glass / 11.3.1:
Types of Traditional Glass-Melting Furnaces / 11.3.1.1:
Unit Melter / 11.3.1.2:
Recuperative Melter / 11.3.1.3:
Regenerative or Siemens Furnace / 11.3.1.4:
Oxygen-Enhanced Combustion for Glass Production / 11.3.1.5:
Advanced Techniques for Glass Production / 11.3.1.6:
Cement and Lime / 11.3.2:
Bricks, Refractories, and Ceramics / 11.3.3:
Waste Incineration / 11.4:
Types of Incinerators / 11.4.1:
Municipal Waste Incinerators / 11.4.1.1:
Sludge Incinerators / 11.4.1.2:
Mobile Incinerators / 11.4.1.3:
Transportable Incinerators / 11.4.1.4:
Fixed Hazardous Waste Incinerators / 11.4.1.5:
Heat Transfer in Waste Incineration / 11.4.2:
Advanced Combustion Systems / Chapter 12:
Oxygen-Enhanced Combustion / 12.1:
Typical Use Methods / 12.2.1:
Air Enrichment / 12.2.1.1:
O[subscript 2] Lancing / 12.2.1.2:
Oxy/Fuel / 12.2.1.3:
Air-Oxy/Fuel / 12.2.1.4:
Heat Transfer Benefits / 12.2.2:
Increased Productivity / 12.2.3.1:
Higher Thermal Efficiencies / 12.2.3.2:
Higher Heat Transfer Efficiency / 12.2.3.3.:
Increased Flexibility / 12.2.3.4:
Potential Heat Transfer Problems / 12.2.4:
Refractory Damage / 12.2.4.1:
Nonuniform Heating / 12.2.4.2:
Industrial Heating Applications / 12.2.5:
Metals / 12.2.5.1:
Minerals / 12.2.5.2:
Incineration / 12.2.5.3:
Other / 12.2.5.4:
Submerged Combustion / 12.3:
Metals Production / 12.3.1:
Minerals Production / 12.3.2:
Liquid Heating / 12.3.3:
Miscellaneous / 12.4:
Surface Combustor-Heater / 12.4.1:
Direct-Fired Cylinder Dryer / 12.4.2:
Appendices
Reference Sources for Further Information / Appendix A:
Common Conversions / Appendix B:
Methods of Expressing Mixture Ratios for CH[subscript 4], C[subscript 3]H[subscript 8], and H[subscript 2] / Appendix C:
Properties for CH[subscript 4], C[subscript 3]H[subscript 8], and H[subscript 2] Flames / Appendix D:
Fluid Dynamics Equations / Appendix E:
Material Properties / Appendix F:
Author Index
Subject Index
Introduction / Chapter 1:
Importance of Heat Transfer in Industrial Combustion / 1.1:
Energy Consumption / 1.1.1:
29.
図書
Jean-Paul Pier
出版情報:
Oxford : Oxford University Press, 2001 x, 428 p. ; 25 cm
子書誌情報:
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Introduction / 1:
The scope of analysis / 1.1:
The great classics on analysis / 1.1.1:
The changing object of analysis / 1.1.2:
Main streams in a turbulent activity / 1.2:
The question of subdividing mathematical analysis / 1.2.1:
How to organize the subject / 1.2.2:
General Topology / 2:
Evolution 1900-1950 / 2.1:
Topological axiomatizations / 2.1.1:
Topological algebra / 2.1.2:
Filtrations / 2.1.3:
Dimension theory / 2.1.4:
Complementary inputs / 2.1.5:
Flashes 1950-2000 / 2.2:
An accomplished subject / 2.2.1:
Generalized topological concepts / 2.2.2:
Integration and Measure / 3:
Lebesgue integration / 3.1:
The general concept of measure / 3.1.2:
Paradoxical decomposition / 3.1.3:
Period of consolidation / 3.1.4:
Standing problems / 3.2:
Abstract formulations / 3.2.2:
Generalized Riemann integrals / 3.2.3:
Outlook / 3.2.4:
Functional analysis / 4:
New objectives / 4.1:
Theory of integral equations / 4.1.2:
Banach spaces / 4.1.3:
Hilbert spaces / 4.1.4:
von Neumann algebras / 4.1.5:
Banach algebras / 4.1.6:
Distributions / 4.1.7:
Topological vector spaces / 4.2:
Extension of Weierstra[beta]'s theorem / 4.2.2:
Frechet spaces, Schwartz spaces, Sobolev spaces / 4.2.3:
Banach space properties / 4.2.4:
Hilbert space properties / 4.2.5:
Banach algebra and C*-algebra properties / 4.2.6:
Approximation properties / 4.2.7:
Nuclearity / 4.2.8:
von Neumann algebra properties / 4.2.9:
Specific topics / 4.2.10:
Harmonic analysis / 5:
Fourier series / 5.1:
Invariant measures / 5.1.2:
Almost periodic functions / 5.1.3:
Uniqueness of invariant measures / 5.1.4:
Convolutions / 5.1.5:
An evolution linked to the history of physics / 5.1.6:
Representation theory / 5.1.7:
Structural properties of topological groups / 5.1.8:
Positive-definite functions / 5.1.9:
Harmonic synthesis / 5.1.10:
Metric locally compact Abelian groups / 5.1.11:
Fourier transforms / 5.2:
Convolution properties / 5.2.2:
Group representations / 5.2.3:
Remarkable Banach algebras of functions on a locally compact group / 5.2.4:
Specific sets / 5.2.5:
Specific groups / 5.2.6:
Harmonic analysis on semigroups / 5.2.7:
Wavelets / 5.2.8:
Generalized actions / 5.2.9:
Lie groups / 6:
Lie groups and Lie algebras / 6.1:
Symmetric Riemannian spaces / 6.1.2:
Hilbert's problem for Lie groups / 6.1.3:
Representations of Lie groups / 6.1.4:
The wide range of Lie group theory / 6.2:
Solution of Hilbert's problem on Lie groups / 6.2.2:
Ergodicity problems / 6.2.3:
Specific classes of Lie groups / 6.2.4:
Extensions of Lie group theory / 6.2.5:
Theory of functions and analytic geometry / 7:
The nineteenth century continued / 7.1:
Potential theory / 7.1.2:
Conformal mappings / 7.1.3:
Towards a theory of several complex variables / 7.1.4:
Accomplishments on previous topics / 7.2:
Hardy spaces / 7.2.2:
The dominance of the theory of several complex variables / 7.2.3:
Iteration problems / 7.2.4:
Ordinary and Partial Differential Equations / 8:
New trends for classical problems / 8.1:
Fixed point properties / 8.1.2:
From the ordinary differential case to the partial differential case / 8.1.3:
Differential equations / 8.2:
Partial differential equations / 8.2.2:
Tentacular subjects / 8.2.3:
Algebraic topology / 9:
The origins of algebraic topology / 9.1:
Simplicial theories / 9.1.2:
Homotopy theory / 9.1.3:
Fibres and fibrations / 9.1.4:
The breakthroughs due to Eilenberg, MacLane, and Leray / 9.1.5:
The power of the machinery / 9.2:
Generalizations / 9.2.2:
Differential topology / 10:
The beginning of the century / 10.1:
E. Cartan's work / 10.1.2:
Tensor products and exterior differentials / 10.1.3:
Morse theory / 10.1.4:
Whitney's work / 10.1.5:
De Rham's work / 10.1.6:
Hodge theory / 10.1.7:
The framing of the subject / 10.1.8:
The status of differentiable manifolds / 10.2:
Foliations / 10.2.2:
From Poincare's heritage / 10.2.3:
Global analysis / 10.2.5:
Probability / 11:
First results / 11.1:
Brownian motion / 11.1.2:
Ergodicity / 11.1.3:
Probabilities as measures / 11.1.4:
Stochastic integrals / 11.1.5:
Probability theory, a part of analysis / 11.2:
Dynamical systems and ergodicity / 11.2.2:
Entropy / 11.2.3:
Stochastic processes / 11.2.4:
Algebraic geometry / 12:
Algebraic geometry and number theory / 12.1:
The Mordell conjecture / 12.1.2:
Transcendence and prime numbers / 12.1.3:
The Riemann conjecture / 12.1.4:
Arithmetical properties / 12.2:
Investigations on transcendental numbers / 12.2.2:
A central object of study / 12.2.3:
Etale cohomology / 12.2.4:
The general Riemann-Roch theorems / 12.2.5:
K-theory / 12.2.6:
Further studies / 12.2.7:
References
Index of Names
Index of Terms
List of Symbols / Appendix:
Introduction / 1:
The scope of analysis / 1.1:
The great classics on analysis / 1.1.1:
30.
図書
M. Hinze ... [et al.]
目次情報:
続きを見る
Preface
Analytical Background and Optimality Theory / 1:
Stefan Ulbrich
Introduction and Examples / 1.1:
Introduction / 1.1.1:
Examples for Optimization Problems with PDEs / 1.1.2:
Optimization of a Stationary Heating Process / 1.1.3:
Optimization of an Unsteady Heating Processes / 1.1.4:
Optimal Design / 1.1.5:
Linear Functional Analysis and Sobolev Spaces / 1.2:
Banach and Hilbert Spaces / 1.2.1:
Sobolev Spaces / 1.2.2:
Weak Convergence / 1.2.3:
Weak Solutions of Elliptic and Parabolic PDEs / 1.3:
Weak Solutions of Elliptic PDEs / 1.3.1:
Weak Solutions of Parabolic PDEs / 1.3.2:
Gateaux- and Fréchet Differentiability / 1.4:
Basic Definitions / 1.4.1:
Implicit Function Theorem / 1.4.2:
Existence of Optimal Controls / 1.5:
Existence Result for a General Linear-Quadratic Problem / 1.5.1:
Existence Result for Nonlinear Problems / 1.5.2:
Applications / 1.5.3:
Reduced Problem, Sensitivities and Adjoints / 1.6:
Sensitivity Approach / 1.6.1:
Adjoint Approach / 1.6.2:
Application to a Linear-Quadratic Optimal Control Problem / 1.6.3:
A Lagrangian-Based View of the Adjoint Approach / 1.6.4:
Second Derivatives / 1.6.5:
Optimality Conditions / 1.7:
Optimality Conditions for Simply Constrained Problems / 1.7.1:
Optimality Conditions for Control-Constrained Problems / 1.7.2:
Optimality Conditions for Problems with General Constraints / 1.7.3:
Optimal Control of Instationary Incompressible Navier-Stokes Flow / 1.8:
Functional Analytic Setting / 1.8.1:
Analysis of the Flow Control Problem / 1.8.2:
Reduced Optimal Control Problem / 1.8.3:
Optimization Methods in Banach Spaces / 2:
Michael Ulbrich
Synopsis / 2.1:
Globally Convergent Methods in Banach Spaces / 2.2:
Unconstrained Optimization / 2.2.1:
Optimization on Closed Convex Sets / 2.2.2:
General Optimization Problems / 2.2.3:
Newton-Based Methods-A Preview / 2.3:
Unconstrained Problems-Newton's Method / 2.3.1:
Simple Constraints / 2.3.2:
General Inequality Constraints / 2.3.3:
Generalized Newton Methods / 2.4:
Motivation: Application to Optimal Control / 2.4.1:
A General Superlinear Convergence Result / 2.4.2:
The Classical Newton's Method / 2.4.3:
Generalized Differential and Semismoothness / 2.4.4:
Semismooth Newton Methods / 2.4.5:
Semismooth Newton Methods in Function Spaces / 2.5:
Semismoothness of Superposition Operators / 2.5.1:
Application to Optimal Control / 2.5.3:
Application to Elliptic Optimal Control Problems / 2.5.5:
Optimal Control of the Incompressible Navier-Stokes Equations / 2.5.7:
Sequential Quadratic Programming / 2.6:
Lagrange-Newton Methods for Equality Constrained Problems / 2.6.1:
The Josephy-Newton Method / 2.6.2:
SQP Methods for Inequality Constrained Problems / 2.6.3:
State-Constrained Problems / 2.7:
SQP Methods / 2.7.1:
Further Aspects / 2.7.2:
Mesh Independence / 2.8.1:
Application of Fast Solvers / 2.8.2:
Other Methods / 2.8.3:
Discrete Concepts in PDE Constrained Optimization / 3:
Michael Hinze
Control Constraints / 3.1:
Stationary Model Problem / 3.2.1:
First Discretize, Then Optimize / 3.2.2:
First Optimize, Then Discretize / 3.2.3:
Discussion and Implications / 3.2.4:
The Variational Discretization Concept / 3.2.5:
Error Estimates / 3.2.6:
Boundary Control / 3.2.7:
Some Literature Related to Control Constraints / 3.2.8:
Constraints on the State / 3.3:
Pointwise Bounds on the State / 3.3.1:
Pointwise Bounds on the Gradient of the State / 3.3.2:
Time Dependent Problem / 3.4:
Mathematical Model, State Equation / 3.4.1:
Optimization Problem / 3.4.2:
Discretization / 3.4.3:
Further Literature on Control of Time-Dependent Problems / 3.4.4:
Rene Pinnau / 4:
Optimal Semiconductor Design / 4.1:
Semiconductor Device Physics / 4.1.1:
The Optimization Problem / 4.1.2:
Numerical Results / 4.1.3:
Optimal Control of Glass Cooling / 4.2:
Modeling / 4.2.1:
Optimal Boundary Control / 4.2.2:
References / 4.2.3:
Preface
Analytical Background and Optimality Theory / 1:
Stefan Ulbrich
31.
図書
Robert Haining
出版情報:
Cambridge [England] ; New York : Cambridge University Press, 1993, c1990 xxi, 409 p. ; 23 cm
子書誌情報:
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List of tables and displays
Preface
Acknowledgements
Introduction to issues in the analysis of spatially referenced data / Part A:
Introduction / 1:
Notes
Issues in analysing spatial data / 2:
Spatial data: sources, forms and storage / 2.1:
Sources: quality and quantity / 2.1.1:
Forms and attributes / 2.1.2:
Data storage / 2.1.3:
Spatial data analysis / 2.2:
The importance of space in the social and environmental sciences / 2.2.1:
Measurement error / 2.2.1 (a):
Continuity effects and spatial heterogeneity / 2.2.1 (b):
Spatial processes / 2.2.1 (c):
Types of analytical problems / 2.2.2:
Problems in spatial data analysis / 2.3:
Conceptual models and inference frameworks for spatial data / 2.3.1:
Modelling spatial variation / 2.3.2:
Statistical modelling of spatial data / 2.3.3:
Dependency in spatial data / 2.3.3 (a):
Spatial heterogeneity: regional subdivisions and parameter variation / 2.3.3 (b):
Spatial distribution of data points and boundary effects / 2.3.3 (c):
Assessing model fit / 2.3.3 (d):
Distributions / 2.3.3 (e):
Extreme data values / 2.3.3 (f):
Model sensitivity to the areal system / 2.3.3 (g):
Size-variance relationships in homogeneous aggregates / 2.3.3 (h):
A statistical framework for spatial data analysis / 2.4:
Data adaptive modelling / 2.4.1:
Robust and resistant parameter estimation / 2.4.2:
Robust estimation of the centre of a symmetric distribution / 2.4.2 (a):
Robust estimation of regression parameters / 2.4.2 (b):
Parametric models for spatial variation / Part B:
Statistical models for spatial populations / 3:
Models for spatial populations: preliminary considerations / 3.1:
Spatial stationarity and isotropy / 3.1.1:
Second order (weak) stationarity and isotropy / 3.1.1 (a):
Second order (weak) stationarity and isotropy of differences from the mean / 3.1.1 (b):
Second order (weak) stationarity and isotropy of increments / 3.1.1 (c):
Order relationships in one and two dimensions / 3.1.2:
Population models for continuous random variables / 3.2:
Models for the mean of a spatial population / 3.2.1:
Trend surface models / 3.2.1 (a):
Regression model / 3.2.1 (b):
Models for second order or stochastic variation of a spatial population / 3.2.2:
Interaction models for V of a MVN distribution / 3.2.2 (a):
Interaction models for other multivariate distributions / 3.2.2 (b):
Direct specification of V / 3.2.2 (c):
Intrinsic random functions / 3.2.2 (d):
Population models for discrete random variables / 3.3:
Boundary models for spatial populations / 3.4:
Edge structures, weighting schemes and the dispersion matrix / 3.5:
Conclusions: issues in representing spatial variation / 3.6:
Simulating spatial models / Appendix:
Statistical analysis of spatial populations / 4:
Model selection / 4.1:
Statistical inference with interaction schemes / 4.2:
Parameter estimation: maximum likelihood (ML) methods / 4.2.1:
[mu] unknown; V known / 4.2.1 (a):
[mu] known; V unknown / 4.2.1 (b):
[mu] and V unknown / 4.2.1 (c):
Models with non-constant variance / 4.2.1 (d):
Parameter estimation: other methods / 4.2.2:
Ordinary least squares and pseudo-likelihood estimators / 4.2.2 (a):
Coding estimators / 4.2.2 (b):
Moment estimators / 4.2.2 (c):
Parameter estimation: discrete valued interaction models / 4.2.3:
Properties of ML estimators / 4.2.4:
Large sample properties / 4.2.4 (a):
Small sample properties / 4.2.4 (b):
A note on boundary effects / 4.2.4 (c):
Hypothesis testing for interaction schemes / 4.2.5:
Likelihood ratio tests / 4.2.5 (a):
Lagrange multiplier tests / 4.2.5 (b):
Statistical inference with covariance functions and intrinsic random functions / 4.3:
Parameter estimation: maximum likelihood methods / 4.3.1:
Properties of estimators and hypothesis testing / 4.3.2:
Validation in spatial models / 4.4:
The consequences of ignoring spatial correlation in estimating the mean / 4.5:
Spatial data collection and preliminary analysis / Part C:
Sampling spatial populations / 5:
Spatial sampling designs / 5.1:
Point sampling / 5.2.1:
Quadrat and area sampling / 5.2.2:
Sampling spatial surfaces: estimating the mean / 5.3:
Fixed populations with trend or periodicity / 5.3.1:
Populations with second order variation / 5.3.2:
Results for one-dimensional series / 5.3.2 (a):
Results for two-dimensional surfaces / 5.3.2 (b):
Standard errors for confidence intervals and selecting sample size / 5.3.3:
Sampling spatial surfaces: second order variation / 5.4:
Kriging / 5.4.1:
Scales of variation / 5.4.2:
Sampling applications / 5.5:
Concluding comments / 5.6:
Preliminary analysis of spatial data / 6:
Preliminary data analysis: distributional properties and spatial arrangement / 6.1:
Univariate data analysis / 6.1.1:
General distributional properties / 6.1.1 (a):
Spatial outliers / 6.1.1 (b):
Spatial trends / 6.1.1 (c):
Second order non-stationarity / 6.1.1 (d):
Regional subdivisions / 6.1.1 (e):
Multivariate data analysis / 6.1.2:
Data transformations / 6.1.3:
Preliminary data analysis: detecting spatial pattern, testing for spatial autocorrelation / 6.2:
Available test statistics / 6.2.1:
Constructing a test / 6.2.2:
Interpretation / 6.2.3:
Choosing a test / 6.2.4:
Describing spatial variation: robust estimation of spatial variation / 6.3:
Robust estimators of the semi-variogram / 6.3.1:
Robust estimation of covariances / 6.3.2:
Concluding remarks / 6.4:
Modelling spatial data / Part D:
Analysing univariate data sets / 7:
Describing spatial variation / 7.1:
Non-stationary mean, stationary second order variation: trend surface models with correlated errors / 7.1.1:
Non-stationary mean, stationary increments: semi-variogram models and polynomial generalised covariance functions / 7.1.2:
Discrete data / 7.1.3:
Interpolation and estimating missing values / 7.2:
Ad hoc and cartographic techniques / 7.2.1:
Distribution based techniques / 7.2.2:
Sequential approaches (sampling a continuous surface) / 7.2.2 (a):
Simultaneous approaches / 7.2.2 (b):
Extensions / 7.2.3:
Obtaining areal properties / 7.2.3 (a):
Reconciling data sets on different areal frameworks / 7.2.3 (b):
Categorical data / 7.2.3 (c):
Other information for interpolation / 7.2.3 (d):
Analysing multivariate data sets / 8:
Measures of spatial correlation and spatial association / 8.1:
Correlation measures / 8.1.1:
Measures of association / 8.1.2:
Regression modelling / 8.2:
Problems due to the assumptions of least squares not being satisfied / 8.2.1:
Problems of model specification and analysis / 8.2.2:
Model discrimination / 8.2.2 (a):
Specifying W / 8.2.2 (b):
Parameter estimation and inference / 8.2.2 (c):
Model evaluation / 8.2.2 (d):
Interpretation problems / 8.2.3:
Problems due to data characteristics / 8.2.4:
Numerical problems / 8.2.5:
Regression applications / 8.3:
Model diagnostics and model revision (a) new explanatory variables / Example 8.1:
Model diagnostics and model revision (b) developing a spatial regression model / Example 8.2:
Regression modelling with census variables: Glasgow health data / Example 8.3:
Identifying spatial interaction and heterogeneity: Sheffield petrol price data / Example 8.4:
Robust estimation of the parameters of interaction schemes
Postscript
Glossary
References
Index
List of tables and displays
Preface
Acknowledgements
32.
図書
edited by Ernst-Rüdiger Olderog
33.
図書
by Henri Sauvageot
出版情報:
Boston : Artech House, c1991 xii, 366 p. ; 24 cm
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Preface
Basic Concepts of Radar / Chapter 1:
Introduction / 1.1:
The Sensor / 1.2:
Noncoherent Pulse Radar / 1.2.1:
Pulsed Doppler Radar / 1.2.2:
Display of the Data / 1.2.3:
Sensitivity of the Receiver / 1.2.4:
Antenna / 1.2.5:
Resolution / 1.2.6:
Refraction / 1.2.7:
Attenuation / 1.2.8:
The Radar Equation: General Forms / 1.3:
Single Scatterer / 1.3.1:
Distributed Target / 1.3.2:
Calibration and Setting Up / 1.4:
Meteorological Signals / 1.5:
Meteorological Targets / 1.5.1:
Signal Statistics / 1.5.2:
Decorrelation Time: Independent Samples / 1.5.3:
Sample Time Averaging: Reducing the Variance of the Mean / 1.5.4:
Reducing the Integration Time / 1.5.5:
Detecting Weak Signals / 1.5.6:
Sampling and Demultiplexing / 1.5.7:
Hydrological Measurements / Chapter 2:
Clouds and Precipitation / 2.1:
Physical Processes of Formation / 2.2.1:
Hydrometeor Size Distributions: General Forms / 2.2.2:
Integral Parameters / 2.2.3:
Clouds / 2.2.4:
Precipitation / 2.2.5:
Terminal Fall Velocity of Hydrometeors / 2.2.6:
The Shape of Hydrometeors / 2.2.7:
Scattering and Attenuation Cross Sections / 2.3:
Homogeneous Spherical Particles / 2.3.1:
Nonhomogeneous Particles / 2.3.2:
Nonspherical Particles / 2.3.3:
Atmospheric Attenuation / 2.4:
Attenuation by Gases / 2.4.1:
Attenuation by Clouds / 2.4.2:
Attenuation by Precipitation / 2.4.3:
Backscattering by Clouds and Precipitation / 2.5:
Radar Reflectivity Factor / 2.5.1:
Z and X Relations / 2.5.2:
Polarization Measurements / 2.5.3:
Hail Precipitation Detection / 2.5.4:
Lightning Detection / 2.5.5:
Artifacts / 2.5.6:
Particular Meteorological Forms of the Radar Equation / 2.5.7:
Precipitation Measurements / 2.6:
Single-Wavelength Reflectivity / 2.6.1:
Radar and Rain Gauge / 2.6.3:
Single-Wavelength Attenuation Measurements / 2.6.4:
Dual-Wavelength a-R Method / 2.6.5:
Dual-Wavelength N(D) Method / 2.6.6:
Dual Polarization / 2.6.7:
Area Integral Methods for Convective Rainfall / 2.6.8:
Radar Networks / 2.7:
Short-Term Forecasting / 2.8:
Radars and Satellites / 2.9:
Technical Aspects / 2.9.1:
Estimation of Precipitation with Visible and Infrared Data / 2.9.2:
Rain Estimation by Passive Microwave Methods / 2.9.3:
Orbital Radars / 2.9.4:
Velocity Measurements / Chapter 3:
The Doppler Spectrum / 3.1:
Spectral Parameters / 3.1.1:
Discrete-Fourier Transform / 3.1.2:
Estimators of Spectral Moments / 3.1.3:
Factors Affecting the Width of the Doppler Spectrum / 3.1.4:
Ground Clutter Suppression / 3.1.5:
Doppler Spectra at Vertical Incidence / 3.2:
Size Distribution of Precipitation / 3.2.1:
Vertical Air Velocity / 3.2.2:
Measurement of the Velocity Fields with a Single Doppler Radar / 3.3:
Analysis of the Mean Field by the VAD Method / 3.3.1:
The VVP Method / 3.3.2:
Display of the Radial Velocity / 3.3.3:
Measurement of Turbulence / 3.4:
The Inertial Domain / 3.4.1:
Measurement of Rate of Dissipation of Turbulent Kinetic Energy / 3.4.2:
The Turbulence Field / 3.4.3:
Measurement of the Velocity Fields with Several Doppler Radars / 3.5:
Retrieval of the Thermodynamic and Microphysical Fields / 3.6:
Airborne Radar / 3.7:
Observation of Clear Air / Chapter 4:
Scattering of Electromagnetic Waves by a Turbulent Medium / 4.1:
General Relations / 4.2.1:
Reflectivity in the Inertial Domain / 4.2.2:
Relationship Between Radar Reflectivity and the Average Atmospheric Field / 4.2.3:
ST Radar / 4.3:
Influence of the Wavelength / 4.3.1:
Wind Measurements / 4.3.2:
Reflectivity / 4.3.3:
Networks of ST Radar / 4.3.4:
Rass / 4.4:
Insects / 4.5:
General Characteristics / 4.5.1:
Insects and Birds / 4.5.2:
Observations / 4.5.3:
Artificial Tracers / 4.6:
General Properties / 4.6.1:
Applications to Atmospheric Observation / 4.6.2:
Introduction to the Study of Some Meteorological Structures by Radar / Chapter 5:
Diversity of Meteorological Structures / 5.1:
Movements of the Atmosphere / 5.1.2:
The Area of Radar Application / 5.1.3:
Convection in the Planetary Boundary Layer / 5.2:
The Convective Boundary Layer / 5.2.1:
Observation of the Convective Field / 5.2.2:
The Aerobiological Field / 5.2.3:
Pollution and Plumes / 5.2.4:
Deep Convection and Thunderstorms / 5.3:
The Convective Cells / 5.3.1:
Convective Storm Structure / 5.3.2:
Squall Lines / 5.3.3:
Microbursts / 5.3.4:
Hail / 5.3.5:
Electrical Activity of Storms / 5.3.6:
Tornadoes and Vortexes / 5.4:
Identification of Vortexes by Radar / 5.4.1:
Application to Warning Systems / 5.4.3:
Extratropical Cyclone Disturbances and Stratiform Clouds / 5.5:
Structure of Extratropical Cyclone Disturbances / 5.5.1:
Stratiform Precipitation / 5.5.2:
Tropical Cyclones / 5.6:
Turbulent Stratifications and Shear Instability / 5.7:
Experimental Modification of Clouds and Precipitation / 5.8:
Bibliographical Note / Appendix 1:
Units and Symbols / Appendix 2:
List of Constants / Appendix 3:
Definitions and Various Numerical Values / Appendix 4:
References
Index
Preface
Basic Concepts of Radar / Chapter 1:
Introduction / 1.1:
34.
図書
Oded Goldreich
出版情報:
Cambridge : Cambridge University Press, 2008 xxiv, 606 p. ; 27 cm
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List of Figures
Preface
Organization and Chapter Summaries
Acknowledgments
Introduction and Preliminaries / 1:
Introduction / 1.1:
A Brief Overview of Complexity Theory / 1.1.1:
Characteristics of Complexity Theory / 1.1.2:
Contents of This Book / 1.1.3:
Approach and Style of This Book / 1.1.4:
Standard Notations and Other Conventions / 1.1.5:
Computational Tasks and Models / 1.2:
Representation / 1.2.1:
Computational Tasks / 1.2.2:
Uniform Models (Algorithms) / 1.2.3:
Non-uniform Models (Circuits and Advice) / 1.2.4:
Complexity Classes / 1.2.5:
Chapter Notes
P, NP, and NP-Completeness / 2:
The P Versus NP Question / 2.1:
The Search Version: Finding Versus Checking / 2.1.1:
The Decision Version: Proving Versus Verifying / 2.1.2:
Equivalence of the Two Formulations / 2.1.3:
Two Technical Comments Regarding NP / 2.1.4:
The Traditional Definition of NP / 2.1.5:
In Support of P Different from NP / 2.1.6:
Philosophical Meditations / 2.1.7:
Polynomial-Time Reductions / 2.2:
The General Notion of a Reduction / 2.2.1:
Reducing Optimization Problems to Search Problems / 2.2.2:
Self-Reducibility of Search Problems / 2.2.3:
Digest and General Perspective / 2.2.4:
NP-Completeness / 2.3:
Definitions / 2.3.1:
The Existence of NP-Complete Problems / 2.3.2:
Some Natural NP-Complete Problems / 2.3.3:
NP Sets That Are Neither in P nor NP-Complete / 2.3.4:
Reflections on Complete Problems / 2.3.5:
Three Relatively Advanced Topics / 2.4:
Promise Problems / 2.4.1:
Optimal Search Algorithms for NP / 2.4.2:
The Class coNP and Its Intersection with NP / 2.4.3:
Exercises
Variations on P and NP / 3:
Non-uniform Polynomial Time (P/poly) / 3.1:
Boolean Circuits / 3.1.1:
Machines That Take Advice / 3.1.2:
The Polynomial-Time Hierarchy (PH) / 3.2:
Alternation of Quantifiers / 3.2.1:
Non-deterministic Oracle Machines / 3.2.2:
The P/poly Versus NP Question and PH / 3.2.3:
More Resources, More Power? / 4:
Non-uniform Complexity Hierarchies / 4.1:
Time Hierarchies and Gaps / 4.2:
Time Hierarchies / 4.2.1:
Time Gaps and Speedup / 4.2.2:
Space Hierarchies and Gaps / 4.3:
Space Complexity / 5:
General Preliminaries and Issues / 5.1:
Important Conventions / 5.1.1:
On the Minimal Amount of Useful Computation Space / 5.1.2:
Time Versus Space / 5.1.3:
Circuit Evaluation / 5.1.4:
Logarithmic Space / 5.2:
The Class L / 5.2.1:
Log-Space Reductions / 5.2.2:
Log-Space Uniformity and Stronger Notions / 5.2.3:
Undirected Connectivity / 5.2.4:
Non-deterministic Space Complexity / 5.3:
Two Models / 5.3.1:
NL and Directed Connectivity / 5.3.2:
A Retrospective Discussion / 5.3.3:
PSPACE and Games / 5.4:
Randomness and Counting / 6:
Probabilistic Polynomial Time / 6.1:
Basic Modeling Issues / 6.1.1:
Two-Sided Error: The Complexity Class BPP / 6.1.2:
One-Sided Error: The Complexity Classes RP and coRP / 6.1.3:
Zero-Sided Error: The Complexity Class ZPP / 6.1.4:
Randomized Log-Space / 6.1.5:
Counting / 6.2:
Exact Counting / 6.2.1:
Approximate Counting / 6.2.2:
Searching for Unique Solutions / 6.2.3:
Uniform Generation of Solutions / 6.2.4:
The Bright Side of Hardness / 7:
One-Way Functions / 7.1:
Generating Hard Instances and One-Way Functions / 7.1.1:
Amplification of Weak One-Way Functions / 7.1.2:
Hard-Core Preicates / 7.1.3:
Reflections on Hardness Amplification / 7.1.4:
Hard Problems in E / 7.2:
Amplification with Respect to Polynomial-Size Circuits / 7.2.1:
Amplification with Respect to Exponential-Size Circuits / 7.2.2:
Pseudorandom Generators / 8:
The General Paradigm / 8.1:
General-Purpose Pseudorandom Generators / 8.2:
The Basic Definition / 8.2.1:
The Archetypical Application / 8.2.2:
Computational Indistinguishability / 8.2.3:
Amplifying the Stretch Function / 8.2.4:
Constructions / 8.2.5:
Non-uniformly Strong Pseudorandom Generators / 8.2.6:
Stronger Notions and Conceptual Reflections / 8.2.7:
Derandomization of Time-Complexity Classes / 8.3:
Defining Canonical Derandomizers / 8.3.1:
Constructing Canonical Derandomizers / 8.3.2:
Technical Variations and Conceptual Reflections / 8.3.3:
Space-Bounded Distinguishers / 8.4:
Definitional Issues / 8.4.1:
Two Constructions / 8.4.2:
Special-Purpose Generators / 8.5:
Pairwise Independence Generators / 8.5.1:
Small-Bias Generators / 8.5.2:
Random Walks on Expanders / 8.5.3:
Probabilistic Proof Systems / 9:
Interactive Proof Systems / 9.1:
Motivation and Perspective / 9.1.1:
Definition / 9.1.2:
The Power of Interactive Proofs / 9.1.3:
Variants and Finer Structure: An Overview / 9.1.4:
On Computationally Bounded Provers: An Overview / 9.1.5:
Zero-Knowledge Proof Systems / 9.2:
The Power of Zero-Knowledge / 9.2.1:
Proofs of Knowledge - A Parenthetical Subsection / 9.2.3:
Probabilistically Checkable Proof Systems / 9.3:
The Power of Probabilistically Checkable Proofs / 9.3.1:
PCP and Approximation / 9.3.3:
More on PCP Itself: An Overview / 9.3.4:
Relaxing the Requirements / 10:
Approximation / 10.1:
Search or Optimization / 10.1.1:
Decision or Property Testing / 10.1.2:
Average-Case Complexity / 10.2:
The Basic Theory / 10.2.1:
Ramifications / 10.2.2:
Epilogue
Glossary of Complexity Classes / Appendix A:
Preliminaries / A.1:
Algorithm-Based Classes / A.2:
Time Complexity Classes / A.2.1:
Space Complexity Classes / A.2.2:
Circuit-Based Classes / A.3:
On the Quest for Lower Bounds / Appendix B:
Boolean Circuit Complexity / B.1:
Basic Results and Questions / B.2.1:
Monotone Circuits / B.2.2:
Bounded-Depth Circuits / B.2.3:
Formula Size / B.2.4:
Arithmetic Circuits / B.3:
Univariate Polynomials / B.3.1:
Multivariate Polynomials / B.3.2:
Proof Complexity / B.4:
Logical Proof Systems / B.4.1:
Algebraic Proof Systems / B.4.2:
Geometric Proof Systems / B.4.3:
On the Foundations of Modern Cryptography / Appendix C:
The Underlying Principles / C.1:
The Computational Model / C.1.2:
Organization and Beyond / C.1.3:
Computational Difficulty / C.2:
Hard-Core Predicates / C.2.1:
Pseudorandomness / C.3:
Pseudorandom Functions / C.3.1:
Zero-Knowledge / C.4:
The Simulation Paradigm / C.4.1:
The Actual Definition / C.4.2:
A General Result and a Generic Application / C.4.3:
Definitional Variations and Related Notions / C.4.4:
Encryption Schemes / C.5:
Beyond Eavesdropping Security / C.5.1:
Signatures and Message Authentication / C.6:
General Cryptographic Protocols / C.6.1:
The Definitional Approach and Some Models / C.7.1:
Some Known Results / C.7.2:
Construction Paradigms and Two Simple Protocols / C.7.3:
Concluding Remarks / C.7.4:
Probabilistic Preliminaries and Advanced Topics in Randomization / Appendix D:
Probabilistic Preliminaries / D.1:
Notational Conventions / D.1.1:
Three Inequalities / D.1.2:
Hashing / D.2:
The Leftover Hash Lemma / D.2.1:
Sampling / D.3:
Formal Setting / D.3.1:
Known Results / D.3.2:
Hitters / D.3.3:
Randomnes Extractors / D.4:
Definitions and Various Perspectives / D.4.1:
Explicit Constructions / D.4.2:
Error-Correcting Codes / E.1:
Basic Notions / E.1.1:
A Few Popular Codes / E.1.2:
Two Additional Computational Problems / E.1.3:
A List-Decoding Bound / E.1.4:
Expander Graphs / E.2:
Definitions and Properties / E.2.1:
Some Omitted Proofs / E.2.2:
Proving That PH Reduces to #P / F.1:
Proving That IP(f) [characters not reproducible] AM(O(f)) [characters not reproducible] AM(f) / F.2:
Emulating General Interactive Proofs by AM-Games / F.2.1:
Linear Speedup for AM / F.2.2:
Some Computational Problems / Appendix G:
Graphs / G.1:
Boolean Formulae / G.2:
Finite Fields, Polynomials, and Vector Spaces / G.3:
The Determinant and the Permanent / G.4:
Primes and Composite Numbers / G.5:
Bibliography
Index
List of Figures
Preface
Organization and Chapter Summaries
35.
図書
A.A. Martynyuk
目次情報:
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Preface
Preliminaries / 1:
Introduction / 1.1:
Nonlinear Continuous Systems / 1.2:
General equations of nonlinear dynamics / 1.2.1:
Perturbed motion equations / 1.2.2:
Definitions of Stability / 1.3:
Scalar, Vector and Matrix-Valued Liapunov Functions / 1.4:
Auxiliary scalar functions / 1.4.1:
Comparison functions / 1.4.2:
Vector Liapunov functions / 1.4.3:
Matrix-valued metafunction / 1.4.4:
Comparison Principle / 1.5:
Liapunov-Like Theorems / 1.6:
Matrix-valued function and its properties / 1.6.1:
A version of the original theorems of Liapunov / 1.6.2:
Advantages of Cone-Valued Liapunov Functions / 1.7:
Stability with respect to two measures / 1.7.1:
Stability analysis of large scale systems / 1.7.2:
Liapunov's Theorems for Large Scale Systems in General / 1.8:
Why are matrix-valued Liapunov functions needed? / 1.8.1:
Stability and instability of large scale systems / 1.8.2:
Notes / 1.9:
Qualitative Analysis of Continuous Systems / 2:
Nonlinear Systems with Mixed Hierarchy of Subsystems / 2.1:
Mixed hierarchical structures / 2.2.1:
Hierarchical matrix function structure / 2.2.2:
Structure of hierarchical matrix function derivative / 2.2.3:
Stability and instability conditions / 2.2.4:
Linear autonomous system / 2.2.5:
Examples of third order systems / 2.2.6:
Dynamics of the Systems with Regular Hierarchy Subsystems / 2.3:
Ikeda-Siljak hierarchical decomposition / 2.3.1:
Hierarchical Liapunov's matrix-valued functions / 2.3.2:
Linear nonautonomous systems / 2.3.3:
Stability Analysis of Large Scale Systems / 2.4:
A class of large scale systems / 2.4.1:
Construction of nondiagonal elements of matrix-valued function / 2.4.2:
Test for stability analysis / 2.4.3:
Linear large scale system / 2.4.4:
Discussion and numerical example / 2.4.5:
Overlapping Decomposition and Matrix-Valued Function Construction / 2.5:
Dynamical system extension / 2.5.1:
Liapunov matrix-valued function construction / 2.5.2:
Test for stability of system (2.5.1) / 2.5.3:
Numerical example / 2.5.4:
Exponential Polystability Analysis of Separable Motions / 2.6:
Statement of the Problem / 2.6.1:
A method for the solution of the problem / 2.6.2:
Autonomous system / 2.6.3:
Polystability by the first order approximations / 2.6.4:
Integral and Lipschitz Stability / 2.7:
Definitions / 2.7.1:
Sufficient conditions for integral and asymptotic integral stability / 2.7.2:
Uniform Lipschitz stability / 2.7.3:
Qualitative Analysis of Discrete-Time Systems / 2.8:
Systems Described by Difference Equations / 3.1:
Matrix-Valued Liapunov Functions Method / 3.3:
Auxiliary results / 3.3.1:
Comparison principle application / 3.3.2:
General theorems on stability / 3.3.3:
Large Scale System Decomposition / 3.4:
Stability and Instability of Large Scale Systems / 3.5:
Auxiliary estimates / 3.5.1:
Autonomous Large Scale Systems / 3.5.2:
Hierarchical Analysis of Stability / 3.7:
Hierarchical decomposition and stability conditions / 3.7.1:
Novel tests for connective stability / 3.7.2:
Controlled Systems / 3.8:
Nonlinear Dynamics of Impulsive Systems / 3.9:
Large Scale Impulsive Systems in General / 4.1:
Notations and definitions / 4.2.1:
Sufficient stability conditions / 4.2.2:
Instability conditions / 4.2.4:
Hierarchical Impulsive Systems / 4.3:
Analytical Construction of Liapunov Function / 4.4:
Structure of hierarchical matrix-valued Liapunov function / 4.4.1:
Structure of the total derivative of hierarchical matrix-valued function / 4.4.2:
Uniqueness and Continuability of Solutions / 4.5:
On Boundedness of the Solutions / 4.6:
Novel Methodology for Stability / 4.7:
Stability conditions / 4.7.1:
Applications / 4.8:
Estimations of Asymptotic Stability Domains in General / 5.1:
A fundamental Zubov's result / 5.2.1:
Some estimates for quadratic matrix-valued functions / 5.2.2:
Algorithm of constructing a point network covering boundary of domain E / 5.2.3:
Numerical realization and discussion of the algorithm / 5.2.4:
Illustrative examples / 5.2.5:
Construction of Estimate for the Domain E of Power System / 5.3:
Oscillations and Stability of Some Mechanical Systems / 5.4:
Three-mass systems / 5.4.1:
Nonautonomous oscillator / 5.4.2:
Absolute Stability of Discrete Systems / 5.5:
References / 5.6:
Subject Index
Preface
Preliminaries / 1:
Introduction / 1.1:
36.
図書
Bernhard Westfechtel
目次情報:
続きを見る
Introduction / Part I:
Development Processes / 1:
Management / 1.2:
Definition / 1.2.1:
Managerial and Technical Level / 1.2.2:
Products, Activities, and Resources / 1.2.3:
Tools for Managing Development Processes / 1.3:
Management, System: Structure and Functionality / 1.3.1:
Scope of the Management System / 1.3.2:
Models for Managing Development Processes / 1.4:
Process Models / 1.4.1:
Models as Tool Specifications / 1.4.2:
Dynamics of Development Processes / 1.5:
Comparison to Other Business Domains / 1.5.1:
Dynamics at the Instance Level / 1.5.2:
Dynamics at the Definition Level / 1.5.3:
Approach and Contributions / 1.6:
Overall Approach / 1.6.1:
Context of Research / 1.6.2:
Models / 1.6.3:
Formal Specification / 1.6.4:
Tools / 1.6.5:
Related Work / 1.7:
Overview / 1.7.1:
Management of Development Processes: State of the Art / Part II:
Process Management / 2:
Product Management / 2.1:
Documents and Configurations / 2.1.1:
Version Control / 2.1.2:
Workspace Management / 2.1.3:
Activity Management / 2.2:
Modeling of Activities / 2.2.1:
Functions of Activity Management / 2.2.3:
Tools for Activity Management / 2.2.4:
Resource Management / 2.3:
Human Resources / 2.3.1:
Computer Resources / 2.3.2:
Conclusion / 2.4:
Functions of Product Management / 3:
Models for Product Management / 3.2:
Product Space / 3.2.1:
Version Space / 3.2.2:
Interplay of Product Space and Version Space / 3.2.3:
Construction of Versions / 3.2.4:
Workspaces / 3.2.5:
Tools for Product Management / 3.3:
System Descriptions / 3.3.1:
Universe of Discourse / 3.4:
Functions and Objectives of Process Management. / 4.1.1:
Characterization of Development Processes / 4.1.2:
Models for Activity Management / 4.2:
Conceptual Framework / 4.2.1:
Process Meta Models / 4.2.2:
Product Development / 4.2.3:
Management of Human Resources / 4.3:
Models for Human Resource Management / 5.1.1:
Tools for Human Resource Management / 5.1.2:
Management of Computer Resources / 5.2:
Tool Integration / 5.3:
Tool Integration: Classification and Overview / 6.1:
Tool Integration Technologies / 6.2:
A Management System for Mechanical Engineering / 6.3:
The SUKITS Project / 7:
Overview of the SUKITS Project / 7.1:
Motivation / 7.1.1:
Goals / 7.1.2:
Application Domain / 7.1.3:
Project Structure and Results / 7.1.4:
The SUKITS Approach to Process Management / 7.2:
Contributions / 7.2.1:
Management Models / 7.2.2:
Management Tools / 7.2.3:
Management Model: Informal Description / 7.3:
Product Management Model / 8.1:
Documents, Dependencies, and Configurations / 8.1.1:
Versions and Versioned Objects / 8.1.2:
Version and Configuration Graphs / 8.1.3:
Consistency Control and Data Integration / 8.1.4:
Activity Management Model / 8.2:
Product-Centered Activity Management / 8.2.1:
Process Dynamics / 8.2.2:
Resource Management Model / 8.3:
Integration of Formal and Informal Cooperation / 8.4:
Management Model: Formal Specification / 8.5:
PROGRES at a First Glance / 9.1:
Graph Schema / 9.2:
Graph Transformations / 9.2.2:
Model Adaptation / 9.3:
Adaptation in SUKITS / 9.5.1:
PROGRES Specification of Model Adaptation / 9.5.2:
Discussion / 9.6:
Specification-in-the-Small / 9.6.1:
Specification-in-the-Large / 9.6.2:
Management System / 9.7:
Tools: Functionality and User Interface / 10.1:
Management Environment / 10.1.1:
Modeling Environment / 10.1.2:
Work Environment / 10.1.3:
Realization / 10.2:
Communication and Distribution / 10.2.1:
Applications, Experiences, and Evaluation / 10.3:
SUKITS Prototypes / 11.1:
Demonstration: Development of a Drill / 11.2:
Demo Steps / 11.2.1:
Evaluation / 11.3:
ManagementModel / 11.3.1:
Applications / 11.3.2:
Toward an Adaptable Environment for Modeling and Managing Development Processes / 11.4:
Dimensions of Management / 12:
Model Architecture / 12.1.2:
Limitations of the SUKITS Approach / 12.1.3:
Modeling of Management Configurations / 12.2:
Architectural Issues / 12.2.1:
Models for Managing Products, Activities, and Resources / 12.2.2:
PROGRES Environment / 12.3:
Process Support Environment / 12.3.4:
Dynamic Task Nets / 12.4:
Informal Description / 13.1:
Structure of Task Nets / 13.1.1:
Levels of Modeling / 13.1.2:
Behavior of Task Nets / 13.1.3:
Examples / 13.1.4:
Base Model / 13.2:
Standard Behavior / 13.2.2:
Structural Adaptation / 13.2.3:
Behavioral Adaptation / 13.2.4:
Net-based approaches / 13.2.5:
Rule-based approaches / 13.3.2:
State-based approaches / 13.3.3:
Procedural approaches / 13.3.4:
Unified Multi-Project Resource Management / 13.4:
Features of RESMOD / 14.1:
Resources / 14.1.2:
Resource Configurations / 14.1.3:
Plan and Actual Resources / 14.1.4:
Base and Project Resources / 14.1.5:
Task Assignments / 14.1.6:
Layer 1: Resource Hierarchies / 14.2:
Layer 2: Actual and Required Resources / 14.2.2:
Layer 3: Base and Project Resources / 14.2.3:
Object-Oriented Process Modeling / 14.2.4:
Meta Process / 15.1:
Process Analysis / 15.3:
Process Specification / 15.4:
Structural Modeling / 15.4.1:
Model Structuring / 15.4.2:
Behavioral Modeling / 15.4.3:
Environment Generation / 15.5:
Lessons Learned / 15.6:
Current Status and Future Work / 15.7:
Management Model / 16.1:
Modeling Languages / 16.2:
Glossary / 16.3:
References
Index
Introduction / Part I:
Development Processes / 1:
Management / 1.2:
37.
図書
Edward Bellinger and David C. Sigee
出版情報:
Chichester, West Sussex, UK ; Hoboken, N.J. : Wiley-Blackwell, 2010 viii, 271 p ; 26 cm
子書誌情報:
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目次情報:
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Introduction to freshwater algae / 1:
General introduction / 1.1:
Algae / 1.1.1:
Algae as primary producers / 1.1.2:
Freshwater environments / 1.1.3:
Planktonic and benthic algae / 1.1.4:
Size and shape / 1.1.5:
Taxonomic variation / 1.2:
Microscopical appearance / 1.2.1:
Biochemistry / 1.2.2:
Molecular characteristics and identification / 1.2.3:
Blue-green algae / 1.3:
Cytology / 1.3.1:
Morphological and taxonomic diversity / 1.3.2:
Ecology / 1.3.3:
Blue-green algae as bioindicators / 1.3.4:
Green algae / 1.4:
Morphological diversity / 1.4.1:
Green algae as bioindicators / 1.4.3:
Euglenoids / 1.5:
Euglenoids as bioindicators / 1.5.1:
Yellow-green algae / 1.6:
Yellow-green algae as bioindicators / 1.6.1:
Dinoflagellates / 1.7:
Cryptomonads / 1.7.1:
Comparison with euglenoid algae / 1.8.1:
Biodiversity / 1.8.3:
Cryptomonads as bioindicators / 1.8.4:
Chrysophytes / 1.9:
Chrysophytes as bioindicators / 1.9.1:
Diatoms / 1.10:
Diatoms as bioindicators / 1.10.1:
Red algae / 1.11:
Brown algae / 1.12:
Sampling, biomass estimation and counts of freshwater algae A Planktonic algae / 2:
Protocol for collection / 2.1:
Standing water phytoplankton / 2.1.1:
River phytoplankton
Mode of collection / 2.2:
Phytoplankton trawl net / 2.2.1:
Volume samplers / 2.2.2:
Integrated sampling / 2.2.3:
Sediment traps / 2.2.4:
Phytoplankton biomass / 2.3:
Turbidity / 2.3.1:
Dry weight and ash-free dry weight / 2.3.2:
Pigment concentrations / 2.3.3:
Flow cytometry / 2.4:
Microscope counts of species populations / 2.5:
Sample preservation and processing / 2.5.1:
Species counts / 2.5.2:
Conversion of species counts to biovolumes / 2.5.3:
Chemical cleaning of diatoms / 2.5.4:
Diversity within species populations / 2.6:
Molecular analysis / 2.6.1:
Analytical microscopical techniques B Non-planktonic algae / 2.6.2:
Deep water benthic algae / 2.7:
Benthic-pelagic coupling / 2.7.1:
Benthic algae and sediment stability / 2.7.2:
Invertebrate grazing of benthic algae / 2.7.3:
Shallow water communities / 2.8:
Substrate / 2.8.1:
Algal communities / 2.8.2:
Algal biofilms / 2.9:
Mucialginous biofilms / 2.9.1:
Biomass / 2.9.2:
Taxonomic composition / 2.9.3:
Matrix structure / 2.9.4:
Periphyton? algal mats / 2.10:
Inorganic substratum / 2.10.1:
Plant surfaces / 2.10.2:
Algae as bioindicators / 3:
Bioindicators and water quality / 3.1:
Biomarkers and bioindicators / 3.1.1:
Characteristics of bioindicators / 3.1.2:
Biological monitoring versus chemical measurements / 3.1.3:
Monitoring water quality: objectives / 3.1.4:
Lakes / 3.2:
Contemporary planktonic and attached algae as bioindicators / 3.2.1:
Fossil algae as bioindicators: lake sediment analysis / 3.2.2:
Water quality parameters / 3.2.3:
Wetlands / 3.3:
Rivers / 3.4:
The periphyton community / 3.4.1:
River diatoms / 3.4.2:
Evaluation of the diatom community / 3.4.3:
Human impacts and diatom indices / 3.4.4:
Calculation of diatom indices / 3.4.5:
Practical applications of diatom indices / 3.4.6:
Estuaries / 3.5:
Ecosystem complexity / 3.5.1:
Algae as estuarine bioindicators / 3.5.2:
A key to the more frequently occurring freshwater algae / 4:
Introduction to the key / 4.1:
Using the key / 4.1.1:
Morphological groupings / 4.1.2:
Key to the main genera and species / 4.2:
List of algae included and their occurrence in the key / 4.3:
Algal identification: bibliography / 4.4:
Glossary
References
Index
Introduction to freshwater algae / 1:
General introduction / 1.1:
Algae / 1.1.1:
38.
図書
A.L.J. Beckwith, D. Griller, J.P. Lorand ; Herausgeber, H. Fischer
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
Rate constants of displacement reactions with molecules in solutions / M. Bonifacic ; K.-D. Asmus
Absolute rate constants / 4.1.0:
Aliphatic radicals and radicals derived from other non-aromatic compounds / 4.1.1.1:
Aromatic radicals and radicals derived from compounds containing aromatic and heterocyclic constituents / 4.1.1.2:
Radicals with undefined stoichiometry and structure / 4.1.1.3:
Graphical data / 4.1.2.1:
Isotope effects
Rate constants of electron transfer reactions with molecules in solutions / 4.1.3.1:
Reactions in aqueous solutions / 4.2.0:
Reactions in nonaqueous solutions
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
39.
図書
Noboru Ono
目次情報:
続きを見る
Series Foreword
Preface
Acknowledgments
Abbreviations
Introduction / 1.:
Preparation of Nitro Compounds / 2.:
Nitration of Hydrocarbons / 2.1:
Aromatic Compounds / 2.1.1:
Alkanes / 2.1.2:
Activated C-H Compounds / 2.1.3:
Alkenes / 2.1.4:
Synthesis of [alpha]-Nitro Ketones / 2.1.5:
Nitration of Alkyl Halides / 2.1.6:
Synthesis of Nitro Compounds by Oxidation / 2.2:
Oxidation of Amines / 2.2.1:
Oxidation of Oximes / 2.2.2:
The Nitro-Aldol (Henry) Reaction / 3.:
Preparation of [beta]-Nitro Alcohols / 3.1:
Derivatives from [beta]-Nitro Alcohols / 3.2:
Nitroalkenes / 3.2.1:
Nitroalkanes / 3.2.2:
[alpha]-Nitro Ketones / 3.2.3:
[beta]-Amino Alcohols / 3.2.4:
Nitro Sugars and Amino Sugars / 3.2.5:
Stereoselective Henry Reactions and Applications to Organic Synthesis / 3.3:
Michael Addition / 4.:
Addition to Nitroalkenes / 4.1:
Conjugate Addition of Heteroatom-Centered Nucleophiles / 4.1.1:
Conjugate Addition of Heteroatom Nucleophiles and Subsequent Nef Reaction / 4.1.2:
Conjugate Addition of Carbon-Centered Nucleophiles / 4.1.3:
Addition and Elimination Reaction of [beta]-Heterosubstituted Nitroalkenes / 4.2:
Michael Addition of Nitroalkanes / 4.3:
Intermolecular Addition / 4.3.1:
Intramolecular Addition / 4.3.2:
Asymmetric Michael Addition / 4.4:
Chiral Alkenes and Chiral Nitro Compounds / 4.4.1:
Chiral Catalysts / 4.4.2:
Alkylation, Acylation, and Halogenation of Nitro Compounds / 5.:
Alkylation of Nitro Compounds / 5.1:
Acylation of Nitroalkanes / 5.2:
Ring Cleavage of Cyclic [alpha]-Nitro Ketones (Retro-Acylation) / 5.3:
Alkylation of Nitro Compounds via Alkyl Radicals / 5.4:
Alkylation of Nitro Compounds Using Transition Metal Catalysis / 5.5:
Butadiene Telomerization / 5.5.1:
Pd-Catalyzed Allylic C-Alkylation of Nitro Compounds / 5.5.2:
Arylation of Nitro Compounds / 5.6:
Introduction of Heteroatoms to Nitroalkanes / 5.7:
Conversion of Nitro Compounds into Other Compounds / 6.:
Nef Reaction (Aldehydes, Ketones, and Carboxylic Acids) / 6.1:
Treatment With Acid (Classical Procedure) / 6.1.1:
Oxidative Method / 6.1.2:
Reductive Method / 6.1.3:
Direct Conversion of Nitroalkenes to Carbonyl Compounds / 6.1.4:
Nitrile Oxides and Nitriles / 6.2:
Reduction of Nitro Compounds into Amines / 6.3:
Ar-NH[subscript 2] From Ar-NO[subscript 2] / 6.3.1:
R-NH[subscript 2] From R-NO[subscript 2] / 6.3.2:
Oximes, Hydroxylamines, and Other Nitrogen Derivatives / 6.3.3:
Substitution and Elimination of NO[subscript 2] in R-NO[subscript 2] / 7.:
R-Nu from R-NO[subscript 2] / 7.1:
Radical Reactions (S[subscript RN]1) / 7.1.1:
Ionic Process / 7.1.2:
Intramolecular Nucleophilic Substitution Reaction / 7.1.3:
Allylic Rearrangement / 7.1.4:
R-H from R-NO[subscript 2] / 7.2:
Radical Denitration / 7.2.1:
Ionic Denitration / 7.2.2:
Alkenes from R-NO[subscript 2] / 7.3:
Radical Elimination / 7.3.1:
Ionic Elimination of Nitro Compounds / 7.3.2:
Cycloaddition Chemistry of Nitro Compounds / 8.:
Diels-Alder Reactions / 8.1:
Nitroalkenes Using Dienophiles / 8.1.1:
Asymmetric Diels-Alder Reaction / 8.1.2:
1,3-Dipolar Cycloaddition / 8.2:
Nitrones / 8.2.1:
Nitrile Oxides / 8.2.2:
Nitronates / 8.2.3:
Nitroalkenes as Heterodienes in Tandem [4+2]/[3+2] Cycloaddition / 8.3:
Nitroalkenes as Heterodienes / 8.3.1:
Tandem [4+2]/[3+2] Cycloaddition of Nitroalkenes / 8.3.2:
Nucleophilic Aromatic Displacement / 9.:
S[subscript N]Ar / 9.1:
Nucleophilic Aromatic Substitution of Hydrogen (NASH) / 9.2:
Carbon Nucleophiles / 9.2.1:
Nitrogen and Other Heteroatom Nucleophiles / 9.2.2:
Applications to Synthesis of Heterocyclic Compounds / 9.2.3:
Synthesis of Heterocyclic Compounds / 10.:
Pyrroles / 10.1:
Synthesis of Indoles / 10.2:
Synthesis of Other Nitrogen Heterocycles / 10.3:
Three-Membered Ring / 10.3.1:
Five- and Six-Membered Saturated Rings / 10.3.2:
Miscellaneous / 10.3.3:
Index
Series Foreword
Preface
Acknowledgments
40.
図書
F. Grossmann
目次情報:
続きを見る
Prerequisites / Part I:
A Short Introduction to Laser Physics / 1:
The Einstein Coefficients / 1.1:
Fundamentals of the Laser / 1.2:
Elementary Laser Theory / 1.2.1:
Realization of the Laser Principle / 1.2.2:
Pulsed Lasers / 1.3:
Frequency Comb / 1.3.1:
Carrier Envelope Phase / 1.3.2:
Husimi Representation of Laser Pulses / 1.3.3:
Some Gaussian Integrals / 1.A:
References
Time-Dependent Quantum Theory / 2:
The Time-Dependent Schrodinger Equation / 2.1:
Introduction / 2.1.1:
Time-Evolution Operator / 2.1.2:
Spectral Information / 2.1.3:
Analytical Solutions for Wavepackets / 2.1.4:
Analytical Approaches / 2.2:
Feynman's Path Integral / 2.2.1:
Semiclassical Approximation / 2.2.2:
Time-Dependent Perturbation Theory / 2.2.3:
Magnus Expansion / 2.2.4:
Time-Dependent Hartree Method / 2.2.5:
Quantum-Classical Methods / 2.2.6:
Floquet Theory / 2.2.7:
Numerical Methods / 2.3:
Orthogonal Basis Expansion / 2.3.1:
Split-Operator FFT Method / 2.3.2:
Alternative Methods of Time-Evolution / 2.3.3:
Semiclassical Initial Value Representations / 2.3.4:
The Royal Road to the Path Integral / 2.A:
Variational Calculus / 2.B:
Stability Matrix / 2.C:
From the HK- to the VVG-Propagator / 2.D:
Applications / Part II:
Field Matter Coupling and Two-Level Systems / 3:
Light Matter Interaction / 3.1:
Minimal Coupling / 3.1.1:
Length Gauge / 3.1.2:
Kramers-Henneberger Transformation / 3.1.3:
Volkov Wavepacket / 3.1.4:
Analytically Solvable Two-Level Problems / 3.2:
Dipole Matrix Element / 3.2.1:
Rabi Oscillations Induced by a Constant Perturbation / 3.2.2:
Time-Dependent Perturbations / 3.2.3:
Exactly Solvable Time-Dependent Cases / 3.2.4:
Generalized Parity Transformation / 3.A:
Two-Level System in an Incoherent Field / 3.B:
Single Electron Atoms in Strong Laser Fields / 4:
The Hydrogen Atom / 4.1:
Hydrogen in Three Dimensions / 4.1.1:
The One-Dimensional Coulomb Problem / 4.1.2:
Field Induced Ionization / 4.2:
Tunnel Ionization / 4.2.1:
Multiphoton Ionization / 4.2.2:
ATI in the Coulomb Potential / 4.2.3:
Stabilization in Very Strong Fields / 4.2.4:
Atoms Driven by HCP / 4.2.5:
High Harmonic Generation / 4.3:
Three-Step Model / 4.3.1:
Odd Harmonics Rule / 4.3.2:
Semiclassical Explanation of the Plateau / 4.3.3:
Cutoff and Odd Harmonics Revisited / 4.3.4:
More on Atomic Units / 4.A:
Molecules in Strong Laser Fields / 5:
The Molecular Ion H[superscript + subscript 2] / 5.1:
Electronic Potential Energy Surfaces / 5.1.1:
The Morse Potential / 5.1.2:
H[superscript + subscript 2] in a Laser Field / 5.2:
Frozen Nuclei / 5.2.1:
Nuclei in Motion / 5.2.2:
Adiabatic and Nonadiabatic Nuclear Dynamics / 5.3:
Born-Oppenheimer Approximation / 5.3.1:
Dissociation in a Morse Potential / 5.3.2:
Coupled Potential Surfaces / 5.3.3:
Femtosecond Spectroscopy / 5.3.4:
Control of Molecular Dynamics / 5.4:
Control of Tunneling / 5.4.1:
Control of Population Transfer / 5.4.2:
Optimal Control Theory / 5.4.3:
Genetic Algorithms / 5.4.4:
Toward Quantum Computing with Molecules / 5.4.5:
Relative and Center of Mass Coordinates for H[superscript + subscript 2] / 5.A:
Perturbation Theory for Two Coupled Surfaces / 5.B:
Reflection Principle of Photodissociation / 5.C:
The Undriven Double Well Problem / 5.D:
The Quantum Mechanical Adiabatic Theorem / 5.E:
Index
Prerequisites / Part I:
A Short Introduction to Laser Physics / 1:
The Einstein Coefficients / 1.1:
41.
図書
Ulf Leonhardt
出版情報:
Cambridge : Cambridge University Press, 2010 xii, 277 p. ; 26 cm
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Acknowledgements
Introduction / 1:
A note to the reader / 1.1:
Quantum theory / 1.2:
Axioms / 1.2.1:
Quantum statistics / 1.2.2:
Schrödinger and Heisenberg pictures / 1.2.3:
On the questions and homework problems / 1.3:
Further reading / 1.4:
Quantum field theory of light / 2:
Light in media / 2.1:
Maxwell's equations / 2.1.1:
Quantum commutator / 2.1.2:
Light modes / 2.2:
Modes and their scalar product / 2.2.1:
Bose commutation relations / 2.2.2:
Interference / 2.2.3:
Monochromatic modes / 2.2.4:
Zero-point energy and Casimir force / 2.3:
An attractive cavity / 2.3.1:
Reflections / 2.3.2:
Questions / 2.4:
Homework problem / 2.5:
Simple quantum states of light / 2.6:
The electromagnetic oscillator / 3.1:
Single-mode states / 3.2:
Quadrature states / 3.2.1:
Fock states / 3.2.2:
Thermal states / 3.2.3:
Coherent states / 3.2.4:
Uncertainty and squeezing / 3.3:
Quasiprobability distributions / 3.4:
Wigner representation / 4.1:
Wigner's formula / 4.1.1:
Basic properties / 4.1.2:
Examples / 4.1.3:
Other quasiprobability distributions / 4.2:
Q function / 4.2.1:
P function / 4.2.2:
s-parameterized quasiprobability distributions / 4.2.3:
Simple optical instruments / 4.3:
Beam splitter / 5.1:
Heisenberg picture / 5.1.1:
Schrödinger picture / 5.1.2:
Fock representation and wave-particle dualism / 5.1.3:
Detection / 5.2:
Photodetector / 5.2.1:
Balanced homodyne detection / 5.2.2:
Quantum tomography / 5.2.3:
Simultaneous measurement of conjugate variables / 5.2.4:
Irrevesible processes / 5.3:
Lindblad's theorem / 6.1:
Irreversibility / 6.1.1:
Reversible dynamics / 6.1.2:
Irreversible dynamics / 6.1.3:
Loss and gain / 6.2:
Absorption and amplification / 6.2.1:
Absorber / 6.2.2:
Amplifier / 6.2.3:
Eavesdropper / 6.2.4:
Continuous quantum measurements / 6.3:
Entanglement / 6.4:
Parametric amplifier / 7.1:
Einstein-Podolski-Rosen state / 7.1.1:
Quantum teleportation / 7.1.4:
Polarization correlations / 7.2:
Singlet state / 7.2.1:
Polarization / 7.2.2:
Bell's theorem / 7.2.3:
Horizons / 7.3:
Minkowski space / 8.1:
Locality and relativity / 8.1.1:
Space-time geometry / 8.1.2:
Light / 8.1.3:
Accelerated observers / 8.2:
Rindler coordinates / 8.2.1:
Accelerated modes / 8.2.2:
Unruh effect / 8.2.3:
Moving media / 8.3:
Motivation / 8.3.1:
Trans-Planckian problem / 8.3.2:
Light in moving media / 8.3.3:
Geometry of light / 8.3.4:
Hawking radiation / 8.3.5:
Stress of the quantum vacuum / 8.4:
State reconstruction in quantum mechanics / Appendix B:
References
Index
Irreversible processes
Appendixes
Acknowledgements
Introduction / 1:
A note to the reader / 1.1:
42.
図書
Nam-Trung Nguyen, Steven T. Wereley
目次情報:
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Preface
Acknowledgments
Introduction / Chapter 1:
Microfluidics--The Emerging Technology / 1.1:
What Is Microfluidics? / 1.1.1:
Commercial Aspects / 1.1.2:
Scientific Aspects / 1.1.3:
Milestones of Microfluidics / 1.2:
Device Development / 1.2.1:
Technology Development / 1.2.2:
Organization of the Book / 1.3:
References
Fluid Mechanics Theory / Chapter 2:
Intermolecular Forces / 2.1:
The Three States of Matter / 2.1.2:
Continuum Assumption / 2.1.3:
Continuum Fluid Mechanics at Small Scales / 2.2:
Gas Flows / 2.2.1:
Liquid Flows / 2.2.2:
Boundary Conditions / 2.2.3:
Parallel Flows / 2.2.4:
Low Reynolds Number Flows / 2.2.5:
Entrance Effects / 2.2.6:
Surface Tension / 2.2.7:
Molecular Approaches / 2.3:
MD / 2.3.1:
DSMC Technique / 2.3.2:
Electrokinetics / 2.4:
Electro-Osmosis / 2.4.1:
Electrophoresis / 2.4.2:
Dielectrophoresis / 2.4.3:
Conclusion / 2.5:
Problems
Fabrication Techniques for Microfluidics / Chapter 3:
Basic Microtechniques / 3.1:
Photolithography / 3.1.1:
Additive Techniques / 3.1.2:
Subtractive Techniques / 3.1.3:
Pattern Transfer Techniques / 3.1.4:
Silicon-Based Micromachining Techniques / 3.2:
Silicon Bulk Micromachining / 3.2.1:
Silicon Surface Micromachining / 3.2.2:
Polymer-Based Micromachining Techniques / 3.3:
Thick Resist Lithography / 3.3.1:
Polymeric Surface Micromachining / 3.3.2:
Soft Lithography / 3.3.3:
Microstereo Lithography / 3.3.4:
Micromolding / 3.3.5:
Other Micromachining Techniques / 3.4:
Assembly and Packaging of Microfluidic Devices / 3.4.1:
Wafer Level Assembly and Packaging / 3.5.1:
Device Level Packaging / 3.5.2:
Biocompatibility / 3.6:
Material Response / 3.6.1:
Tissue and Cellular Response / 3.6.2:
Biocompatibility Tests / 3.6.3:
Experimental Flow Characterization / Chapter 4:
Pointwise Methods / 4.1:
Full-Field Methods / 4.1.2:
Overview of Micro-PIV / 4.2:
Fundamental Physics Considerations of Micro-PIV / 4.2.1:
Special Processing Methods for Micro-PIV Recordings / 4.2.2:
Advanced Processing Methods Suitable for Both Micro/Macro-PIV Recordings / 4.2.3:
Micro-PIV Examples / 4.3:
Flow in a Microchannel / 4.3.1:
Flow in a Micronozzle / 4.3.2:
Flow Around a Blood Cell / 4.3.3:
Flow in Microfluidic Biochip / 4.3.4:
Conclusions / 4.3.5:
Extensions of the Micro-PIV technique / 4.4:
Microfluidic Nanoscope / 4.4.1:
Microparticle Image Thermometry / 4.4.2:
Infrared Micro-PIV / 4.4.3:
Particle Tracking Velocimetry / 4.4.4:
Microfluidics for External Flow Control / Chapter 5:
Velocity and Turbulence Measurement / 5.1:
Velocity Sensors / 5.1.1:
Shear Stress Sensors / 5.1.2:
Turbulence Control / 5.2:
Microflaps / 5.2.1:
Microballoon / 5.2.2:
Microsynthetic Jet / 5.2.3:
Microair Vehicles / 5.3:
Fixed-Wing MAV / 5.3.1:
Flapping-Wing MAV / 5.3.2:
Microrotorcraft / 5.3.3:
Microrockets / 5.3.4:
Microfluidics for Internal Flow Control: Microvalves / Chapter 6:
Design Considerations / 6.1:
Actuators / 6.1.1:
Valve Spring / 6.1.2:
Valve Seat / 6.1.3:
Pressure Compensation Design / 6.1.4:
Pneumatic Valves / 6.2:
Pneumatic Actuators / 6.2.1:
Design Examples / 6.2.2:
Thermopneumatic Valves / 6.3:
Thermopneumatic Actuators / 6.3.1:
Thermomechanical Valves / 6.3.2:
Solid-Expansion Valves / 6.4.1:
Bimetallic Valves / 6.4.2:
Shape-Memory Alloy Valves / 6.4.3:
Piezoelectric Valves / 6.5:
Piezoelectric Actuators / 6.5.1:
Electrostatic Valves / 6.5.2:
Electrostatic Actuators / 6.6.1:
Electromagnetic Valves / 6.6.2:
Electromagnetic Actuators / 6.7.1:
Electrochemical Valves / 6.7.2:
Capillary-Force Valves / 6.9:
Capillary-Force Actuators / 6.9.1:
Microfluidics for Internal Flow Control: Micropumps / 6.9.2:
Mechanical Pumps / 7.1:
Check-Valve Pumps / 7.1.1:
Peristaltic Pumps / 7.1.3:
Valveless Rectification Pumps / 7.1.4:
Rotary Pumps / 7.1.5:
Centrifugal Pumps / 7.1.6:
Ultrasonic Pumps / 7.1.7:
Nonmechanical Pumps / 7.2:
Electrical Pumps / 7.2.1:
Surface Tension Driven Pumps / 7.2.2:
Chemical Pumps / 7.2.3:
Magnetic Pumps / 7.2.4:
Scaling Law for Micropumps / 7.3:
Microfluidics for Internal Flow Control: Microflow Sensors / Chapter 8:
Nonthermal Flow Sensors / 8.1:
Differential Pressure Flow Sensors / 8.1.1:
Drag Force Flow Sensors / 8.1.2:
Lift Force Flow Sensors / 8.1.3:
Coriolis Flow Sensors / 8.1.4:
Electrohydrodynamic Flow Sensors / 8.1.5:
Thermal Flow Sensors / 8.2:
Thermoresistive Flow Sensors / 8.2.1:
Thermocapacitive Flow Sensors / 8.2.3:
Thermoelectric Flow Sensors / 8.2.4:
Thermoelectronic Flow Sensors / 8.2.5:
Pyroelectric Flow Sensors / 8.2.6:
Frequency Analog Sensors / 8.2.7:
Microfluidics for Life Sciences and Chemistry / Chapter 9:
Microfilters / 9.1:
Microneedles / 9.1.1:
Micromixers / 9.2.1:
Microreactors / 9.3.1:
Microdispensers / 9.4.1:
Microseparators / 9.5.1:
Gas Chromatography / 9.6.1:
Liquid Chromatography / 9.6.3:
List of Symbols / 9.6.4:
Resources for Microfluidics Research / Appendix B:
Abbreviations of Different Plastics / Appendix C:
Linear Elastic Deflection Models / Appendix D:
About the Authors
Index
Preface
Acknowledgments
Introduction / Chapter 1:
43.
図書
Robert B. Grossman
出版情報:
New York : Springer, c2003 xvi, 355 p. ; 25 cm
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Preface to the Student
Preface to the Instructor
The Basics / 1:
Structure and Stability of Organic Compounds / 1.1:
Conventions of Drawing Structures; Grossman's Rule / 1.1.1:
Lewis Structures; Resonance Structures / 1.1.2:
Molecular Shape; Hybridization / 1.1.3:
Aromaticity / 1.1.4:
Bronsted Acidity and Basicity / 1.2:
pK[subscript a] Values / 1.2.1:
Tautomerism / 1.2.2:
Kinetics and Thermodynamics / 1.3:
Getting Started in Drawing a Mechanism / 1.4:
Classes of Overall Transformations / 1.5:
Classes of Mechanisms / 1.6:
Polar Mechanisms / 1.6.1:
Free-Radical Mechanisms / 1.6.2:
Pericyclic Mechanisms / 1.6.3:
Transition-Metal-Catalyzed and -Mediated Mechanisms / 1.6.4:
Summary / 1.7:
Problems
Polar Reactions under Basic Conditions / 2:
Substitution and Elimination at C(sp[superscript 3])-X [sigma] Bonds, Part I / 2.1:
Substitution by the S[subscript N]2 Mechanism / 2.1.1:
[beta]-Elimination by the E2 and Elcb Mechanisms / 2.1.2:
Predicting Substitution vs. Elimination / 2.1.3:
Addition of Nucleophiles to Electrophilic [pi] Bonds / 2.2:
Addition to Carbonyl Compounds / 2.2.1:
Conjugate Addition; The Michael Reaction / 2.2.2:
Substitution at C(sp[superscript 2])-X [sigma] Bonds / 2.3:
Substitution at Carbonyl C / 2.3.1:
Substitution at Alkenyl and Aryl C / 2.3.2:
Metal Insertion; Halogen-Metal Exchange / 2.3.3:
Substitution and Elimination at C(sp[superscript 3])-X [sigma] Bonds, Part II / 2.4:
Substitution by the S[subscript RN]1 Mechanism / 2.4.1:
Substitution by the Elimination-Addition Mechanism / 2.4.2:
Substitution by the One-Electron Transfer Mechanism / 2.4.3:
[alpha]-Elimination; Generation and Reactions of Carbenes / 2.4.4:
Base-Promoted Rearrangements / 2.5:
Migration from C to C / 2.5.1:
Migration from C to O or N / 2.5.2:
Migration from B to C or O / 2.5.3:
Two Multistep Reactions / 2.6:
The Swern Oxidation / 2.6.1:
The Mitsunobu Reaction / 2.6.2:
Polar Reactions Under Acidic Conditions / 2.7:
Carbocations / 3.1:
Carbocation Stability / 3.1.1:
Carbocation Generation; The Role of Protonation / 3.1.2:
Typical Reactions of Carbocations; Rearrangements / 3.1.3:
Substitution and [beta]-Elimination Reactions at C(sp[superscript 3])-X / 3.2:
Substitution by the S[subscript N]1 and S[subscript N]2 Mechanisms / 3.2.1:
[beta]-Elimination by the E1 Mechanism / 3.2.2:
Electrophilic Addition to Nucleophilic C=C [pi] Bonds / 3.2.3:
Substitution at Nucleophilic C=C [pi] Bonds / 3.4:
Electrophilic Aromatic Substitution / 3.4.1:
Aromatic Substitution of Anilines via Diazonium Salts / 3.4.2:
Electrophilic Aliphatic Substitution / 3.4.3:
Nucleophilic Addition to and Substitution at Electrophilic [pi] Bonds / 3.5:
Heteroatom Nucleophiles / 3.5.1:
Carbon Nucleophiles / 3.5.2:
Pericyclic Reactions / 3.6:
Introduction / 4.1:
Classes of Pericyclic Reactions / 4.1.1:
Polyene MOs / 4.1.2:
Electrocyclic Reactions / 4.2:
Typical Reactions / 4.2.1:
Stereospecificity / 4.2.2:
Stereoselectivity / 4.2.3:
Cycloadditions / 4.3:
Regioselectivity / 4.3.1:
Sigmatropic Rearrangements / 4.3.3:
Ene Reactions / 4.4.1:
Free-Radical Reactions / 4.6:
Free Radicals / 5.1:
Stability / 5.1.1:
Generation from Closed-Shell Species / 5.1.2:
Chain vs. Nonchain Mechanisms / 5.1.3:
Chain Free-Radical Reactions / 5.2:
Substitution Reactions / 5.2.1:
Addition and Fragmentation Reactions / 5.2.2:
Nonchain Free-Radical Reactions / 5.3:
Photochemical Reactions / 5.3.1:
Reductions and Oxidations with Metals / 5.3.2:
Cycloaromatizations / 5.3.3:
Miscellaneous Radical Reactions / 5.4:
1,2-Anionic Rearrangements; Lone-Pair Inversion / 5.4.1:
Triplet Carbenes and Nitrenes / 5.4.2:
Transition-Metal-Mediated and -Catalyzed Reactions / 5.5:
Introduction to the Chemistry of Transition Metals / 6.1:
Conventions of Drawing Structures / 6.1.1:
Counting Electrons / 6.1.2:
Stoichiometric vs. Catalytic Mechanisms / 6.1.3:
Addition Reactions / 6.2:
Late-Metal-Catalyzed Hydrogenation and Hydrometallation (Pd, Pt, Rh) / 6.2.1:
Hydroformylation (Co, Rh) / 6.2.2:
Hydrozirconation (Zr) / 6.2.3:
Alkene Polymerization (Ti, Zr, Sc, and others) / 6.2.4:
Cyclopropanation, Epoxidation, and Aziridination of Alkenes (Cu, Rh, Mn, Ti) / 6.2.5:
Dihydroxylation and Aminohydroxylation of Alkenes (Os) / 6.2.6:
Nucleophilic Addition to Alkenes and Alkynes (Hg, Pd) / 6.2.7:
Conjugate Addition Reactions (Cu) / 6.2.8:
Reductive Coupling Reactions (Ti, Zr) / 6.2.9:
Pauson-Khand Reaction (Co) / 6.2.10:
Dotz Reaction (Cr) / 6.2.11:
Metal-Catalyzed Cycloaddition and Cyclotrimerization (Co, Ni, Rh) / 6.2.12:
Hydrogenolysis (Pd) / 6.3:
Carbonylation of Alkyl Halides (Pd, Rh) / 6.3.2:
Heck Reaction (Pd) / 6.3.3:
Coupling Reactions Between Nucleophiles and C(sp[superscript 2])-X: Kumada, Stille, Suzuki, Negishi, Buchwald-Hartwig, Sonogashira, and Ullmann Reactions (Ni, Pd, Cu) / 6.3.4:
Allylic Substitution (Pd) / 6.3.5:
Pd-Catalyzed Nucleophilic Substitution of Alkenes; Wacker Oxidation / 6.3.6:
Tebbe Reaction (Ti) / 6.3.7:
Propargyl Substitution in Co-Alkyne Complexes / 6.3.8:
Rearrangement Reactions / 6.4:
Alkene Isomerization (Rh) / 6.4.1:
Olefin and Alkyne Metathesis (Ru, W, Mo, Ti) / 6.4.2:
Elimination Reactions / 6.5:
Oxidation of Alcohols (Cr, Ru) / 6.5.1:
Decarbonylation of Aldehydes (Rh) / 6.5.2:
Mixed-Mechanism Problems / 6.6:
A Final Word
Index
Preface to the Student
Preface to the Instructor
The Basics / 1:
44.
図書
T. Kaneko ; Herausgeber, H.P.J. Wijn
目次情報:
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The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
45.
図書
George Wolberg
出版情報:
Los Alamitos, Calif. ; Tokyo : IEEE Computer Society Press, c1990 xvi, 318 p. ; 27 cm
子書誌情報:
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所蔵情報:
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目次情報:
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Introduction / Chapter 1:
Background / 1.1:
Overview / 1.2:
Spatial Transformations / 1.2.1:
Sampling Theory / 1.2.2:
Resampling / 1.2.3:
Aliasing / 1.2.4:
Scanline Algorithms / 1.2.5:
Conceptual Layout / 1.3:
Preliminaries / Chapter 2:
Fundamentals / 2.1:
Signals and Images / 2.1.1:
Filters / 2.1.2:
Impulse Response / 2.1.3:
Convolution / 2.1.4:
Frequency Analysis / 2.1.5:
An Analogy to Audio Signals / 2.1.5.1:
Fourier Transforms / 2.1.5.2:
Discrete Fourier Transforms / 2.1.5.3:
Image Acquisition / 2.2:
Imaging Systems / 2.3:
Electronic Scanners / 2.3.1:
Vidicon Systems / 2.3.1.1:
Image Dissectors / 2.3.1.2:
Solid-State Sensors / 2.3.2:
CCD Cameras / 2.3.2.1:
CID Cameras / 2.3.2.2:
Mechanical Scanners / 2.3.3:
Video Digitizers / 2.4:
Digitized Imagery / 2.5:
Summary / 2.6:
Definitions / Chapter 3:
Forward Mapping / 3.1.1:
Inverse Mapping / 3.1.2:
General Transformation Matrix / 3.2:
Homogeneous Coordinates / 3.2.1:
Affine Transformations / 3.3:
Translation / 3.3.1:
Rotation / 3.3.2:
Scale / 3.3.3:
Shear / 3.3.4:
Composite Transformations / 3.3.5:
Inverse / 3.3.6:
Inferring Affine Transformations / 3.3.7:
Perspective Transformations / 3.4:
Inferring Perspective Transformations / 3.4.1:
Case 1: Square-to-Quadrilateral / 3.4.2.1:
Case 2: Quadrilateral-to-Square / 3.4.2.2:
Case 3: Quadrilateral-to-Quadrilateral / 3.4.2.3:
Bilinear Transformations / 3.5:
Bilinear Interpolation / 3.5.1:
Separability / 3.5.2:
Interpolation Grid / 3.5.3:
Polynomial Transformations / 3.6:
Inferring Polynomial Coefficients / 3.6.1:
Pseudoinverse Solution / 3.6.2:
Least-Squares With Ordinary Polynomials / 3.6.3:
Least-Squares With Orthogonal Polynomials / 3.6.4:
Weighted Least-Squares / 3.6.5:
Piecewise Polynomial Transformations / 3.7:
A Surface Fitting Paradigm for Geometric Correction / 3.7.1:
Procedure / 3.7.2:
Triangulation / 3.7.3:
Linear Triangular Patches / 3.7.4:
Cubic Triangular Patches / 3.7.5:
Global Splines / 3.8:
Basis Functions / 3.8.1:
Regularization / 3.8.2:
Grimson, 1981 / 3.8.2.1:
Terzopoulos, 1984 / 3.8.2.2:
Discontinuity Detection / 3.8.2.3:
Boult and Kender, 1986 / 3.8.2.4:
A Definition of Smoothness / 3.8.2.5:
Sampling / 3.9:
Reconstruction / 4.3:
Reconstruction Conditions / 4.3.1:
Ideal Low-Pass Filter / 4.3.2:
Sinc Function / 4.3.3:
Nonideal Reconstruction / 4.4:
Antialiasing / 4.5:
Image Resampling / 4.7:
Ideal Image Resampling / 5.1:
Interpolation / 5.3:
Interpolation Kernels / 5.4:
Nearest Neighbor / 5.4.1:
Linear Interpolation / 5.4.2:
Cubic Convolution / 5.4.3:
Two-Parameter Cubic Filters / 5.4.4:
Cubic Splines / 5.4.5:
B-Splines / 5.4.5.1:
Interpolating B-Splines / 5.4.5.2:
Windowed Sinc Function / 5.4.6:
Hann and Hamming Windows / 5.4.6.1:
Blackman Window / 5.4.6.2:
Kaiser Window / 5.4.6.3:
Lanczos Window / 5.4.6.4:
Gaussian Window / 5.4.6.5:
Exponential Filters / 5.4.7:
Comparison of Interpolation Methods / 5.5:
Implementation / 5.6:
Interpolation with Coefficient Bins / 5.6.1:
Fant's Resampling Algorithm / 5.6.2:
Discussion / 5.7:
Point Sampling / Chapter 6:
Area Sampling / 6.1.2:
Space-Invariant Filtering / 6.1.3:
Space-Variant Filtering / 6.1.4:
Regular Sampling / 6.2:
Supersampling / 6.2.1:
Adaptive Supersampling / 6.2.2:
Reconstruction from Regular Samples / 6.2.3:
Irregular Sampling / 6.3:
Stochastic Sampling / 6.3.1:
Poisson Sampling / 6.3.2:
Jittered Sampling / 6.3.3:
Point-Diffusion Sampling / 6.3.4:
Adaptive Stochastic Sampling / 6.3.5:
Reconstruction from Irregular Samples / 6.3.6:
Direct Convolution / 6.4:
Catmull, 1974 / 6.4.1:
Blinn and Newell, 1976 / 6.4.2:
Feibush, Levoy, and Cook, 1980 / 6.4.3:
Gangnet, Perny, and Coueignoux, 1982 / 6.4.4:
Greene and Heckbert, 1986 / 6.4.5:
Prefiltering / 6.5:
Pyramids / 6.5.1:
Summed-Area Tables / 6.5.2:
Frequency Clamping / 6.6:
Antialiased Lines and Text / 6.7:
Separable Mapping / 6.8:
Incremental Algorithms / 7.2:
Texture Mapping / 7.2.1:
Gouraud Shading / 7.2.2:
Incremental Texture Mapping / 7.2.3:
Incremental Perspective Transformations / 7.2.4:
Approximation / 7.2.5:
Quadratic Interpolation / 7.2.6:
Cubic Interpolation / 7.2.7:
Braccini and Marino, 1980 / 7.3:
Weiman, 1980 / 7.3.2:
Catmull and Smith, 1980 / 7.3.3:
Paeth, 1986/ Tanaka, et. al., 1986 / 7.3.4:
Cordic Algorithm / 7.3.5:
2-Pass Transforms / 7.4:
First Pass / 7.4.1:
Second Pass / 7.4.1.2:
2-Pass Algorithm / 7.4.1.3:
An Example: Rotation / 7.4.1.4:
Another Example: Perspective / 7.4.1.5:
Bottleneck Problem / 7.4.1.6:
Foldover Problem / 7.4.1.7:
Fraser, Schowengerdt, and Briggs, 1985 / 7.4.2:
Smith, 1987
2-Pass Mesh Warping / 7.5:
Special Effects / 7.5.1:
Description of the Algorithm / 7.5.2:
Examples / 7.5.2.1:
Source Code / 7.5.4:
More Separable Mappings / 7.6:
Perspective Projection: Robertson, 1987 / 7.6.1:
Warping Among Arbitrary Planar Shapes: Wolberg, 1988 / 7.6.2:
Spatial Lookup Tables: Wolberg and Boult, 1989 / 7.6.3:
Separable Image Warping / 7.7:
Spatial Lookup Tables / 7.7.1:
Intensity Resampling / 7.7.2:
Coordinate Resampling / 7.7.3:
Distortions and Errors / 7.7.4:
Filtering Errors / 7.7.4.1:
Perspective / 7.7.4.2:
Distortion Measures / 7.7.4.4:
Bottleneck Distortion / 7.7.4.6:
Representing Foldovers / 7.7.5:
Tracking Foldovers / 7.7.5.2:
Storing Information From Foldovers / 7.7.5.3:
Intensity Resampling with Foldovers / 7.7.5.4:
Compositor / 7.7.6:
Epilogue / 7.7.7:
Fast Fourier Transforms / Appendix 1:
Discrete Fourier Transform / A1.1:
Danielson-Lanczos Lemma / A1.2:
Butterfly Flow Graph / A1.2.1:
Putting It All Together / A1.2.2:
Recursive FFT Algorithm / A1.2.3:
Cost of Computation / A1.2.4:
Cooley-Tukey Algorithm / A1.3:
Computational Cost / A1.3.1:
Cooley-Sande Algorithm / A1.4:
Cooley-Tukey FFT Algorithm / A1.5:
Interpolating Cubic Splines / Appendix 2:
Definition / A2.1:
Constraints / A2.2:
Solving for the Spline Coefficients / A2.3:
Derivation of A[subscript 2] / A2.3.1:
Derivation of A[subscript 3] / A2.3.2:
Derivation of A[subscript 1] and A[subscript 3] / A2.3.3:
Evaluting the Unknown Derivatives / A2.4:
First Derivatives / A2.4.1:
Second Derivatives / A2.4.2:
Boundary Conditions / A2.4.3:
Ispline / A2.5:
Ispline_gen / A2.5.2:
Forward Difference Method / Appendix 3:
References
Index
Introduction / Chapter 1:
Background / 1.1:
Overview / 1.2:
46.
図書
issued by International Institute of Refrigeration ; [editor, Kostadin Fikiin] = edité par Institut International du Froid
47.
図書
J. Demaison ... [et al.] ; Herausgeber : K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
48.
図書
J. Demaison ... [et al.] ; Herausgeber: W. Hüttner
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
49.
図書
Iwao Teraoka
出版情報:
New York : Wiley, c2002 xv, 338 p ; 25 cm
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Preface
Models of Polymer Chains / 1:
Introduction / 1.1:
Chain Architecture / 1.1.1:
Models of a Linear Polymer Chain / 1.1.2:
Real Chains and Ideal Chains / 1.1.3:
Ideal Chains / 1.2:
Random Walk in One Dimension / 1.2.1:
Random Walks in Two and Three Dimensions / 1.2.2:
Dimensions of Random-Walk Chains / 1.2.3:
Problems / 1.2.4:
Gaussian Chain / 1.3:
What is a Gaussian Chain? / 1.3.1:
Dimension of a Gaussian Chain / 1.3.2:
Entropy Elasticity / 1.3.3:
Real Chains / 1.3.4:
Excluded Volume / 1.4.1:
Dimension of a Real Chain / 1.4.2:
Self-Avoiding Walk / 1.4.3:
Semirigid Chains / 1.4.4:
Examples of Semirigid Chains / 1.5.1:
Wormlike Chain / 1.5.2:
Branched Chains / 1.5.3:
Architecture of Branched Chains / 1.6.1:
Dimension of Branched Chains / 1.6.2:
Molecular Weight Distribution / 1.6.3:
Average Molecular Weights / 1.7.1:
Typical Distributions / 1.7.2:
Concentration Regimes / 1.7.3:
Concentration Regimes for Linear Flexible Polymers / 1.8.1:
Concentration Regimes for Rodlike Molecules / 1.8.2:
Thermodynamics of Dilute Polymer Solutions / 1.8.3:
Polymer Solutions and Thermodynamics / 2.1:
Flory-Huggins Mean-Field Theory / 2.2:
Model / 2.2.1:
Free Energy, Chemical Potentials, and Osmotic Pressure / 2.2.2:
Dilute Solutions / 2.2.3:
Coexistence Curve and Stability / 2.2.4:
Polydisperse Polymer / 2.2.5:
Phase Diagram and Theta Solutions / 2.2.6:
Phase Diagram / 2.3.1:
Theta Solutions / 2.3.2:
Coil-Globule Transition / 2.3.3:
Solubility Parameter / 2.3.4:
Static Light Scattering / 2.3.5:
Sample Geometry in Light-Scattering Measurements / 2.4.1:
Scattering by a Small Particle / 2.4.2:
Scattering by a Polymer Chain / 2.4.3:
Scattering by Many Polymer Chains / 2.4.4:
Correlation Function and Structure Factor / 2.4.5:
Structure Factor of a Polymer Chain / 2.4.6:
Light Scattering of a Polymer Solution / 2.4.7:
Other Scattering Techniques / 2.4.8:
Size Exclusion Chromatography and Confinement / 2.4.9:
Separation System / 2.5.1:
Plate Theory / 2.5.2:
Partitioning of Polymer with a Pore / 2.5.3:
Calibration of SEC / 2.5.4:
SEC With an On-Line Light-Scattering Detector / 2.5.5:
Appendixes / 2.5.6:
Review of Thermodynamics for Colligative Properties in Nonideal Solutions / 2.A:
Osmotic Pressure / 2.A.1:
Vapor Pressure Osmometry / 2.A.2:
Another Approach to Thermodynamics of Polymer Solutions / 2.B:
Correlation Function of a Gaussian Chain / 2.C:
Dynamics of Dilute Polymer Solutions / 3:
Dynamics of Polymer Solutions / 3.1:
Dynamic Light Scattering and Diffusion of Polymers / 3.2:
Measurement System and Autocorrelation Function / 3.2.1:
Autocorrelation Function / 3.2.2:
Dynamic Structure Factor of Suspended Particles / 3.2.3:
Diffusion of Particles / 3.2.4:
Diffusion and DLS / 3.2.5:
Dynamic Structure Factor of a Polymer Solution / 3.2.6:
Hydrodynamic Radius / 3.2.7:
Particle Sizing / 3.2.8:
Diffusion From Equation of Motion / 3.2.9:
Diffusion as Kinetics / 3.2.10:
Concentration Effect on Diffusion / 3.2.11:
Diffusion in a Nonuniform System / 3.2.12:
Viscosity / 3.2.13:
Viscosity of Solutions / 3.3.1:
Measurement of Viscosity / 3.3.2:
Intrinsic Viscosity / 3.3.3:
Flow Field / 3.3.4:
Normal Modes / 3.3.5:
Rouse Model / 3.4.1:
Normal Coordinates / 3.4.2:
Equation of Motion for the Normal Coordinates in the Rouse Model / 3.4.3:
Results of the Normal-Coordinates / 3.4.4:
Results for the Rouse Model / 3.4.5:
Zimm Model / 3.4.6:
Dynamic Structure Factor / 3.4.7:
Motion of Monomers / 3.4.9:
Dynamics of Rodlike Molecules / 3.4.10:
Diffusion Coefficients / 3.5.1:
Rotational Diffusion / 3.5.2:
Dynamics of Wormlike Chains / 3.5.3:
Appendices / 3.5.6:
Evaluation of [left angle bracket]q[subscript i superscript 2 right angle bracket subscript eq] / 3.A:
Evaluation of [left angle bracket]exp[ik [middle dot] (Aq - Bp) right angle bracket] / 3.B:
Initial Slope of S[subscript 1](k,t) / 3.C:
Thermodynamics and Dynamics of Semidilute Solutions / 4:
Semidilute Polymer Solutions / 4.1:
Thermodynamics of Semidilute Polymer Solutions / 4.2:
Blob Model / 4.2.1:
Scaling Theory and Semidilute Solutions / 4.2.2:
Partitioning with a Pore / 4.2.3:
Dynamics of Semidilute Solutions / 4.2.4:
Cooperative Diffusion / 4.3.1:
Tube Model and Reptation Theory / 4.3.2:
References / 4.3.3:
Further Readings
Delta Function / A1:
Fourier Transform / A2:
Integrals / A3:
Series / A4:
Index
Preface
Models of Polymer Chains / 1:
Introduction / 1.1:
50.
図書
Roel Prins ... [et al]
目次情報:
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Preface
About the Authors
Introduction / 1:
Catalysis and Catalysts / 1.1:
Heterogeneous and Homogeneous Catalysis / 1.2:
Production of Ammonia / 1.3:
Kinetics and Thermodynamics / 1.3.1:
Activity, Selectivity and Stability / 1.3.2:
H2 Production / 1.3.3:
Ammonia Synthesis / 1.3.4:
Relevance of Catalysis / 1.4:
References
Questions
Catalyst Preparation and Characterisation / 2:
Supported Catalysts / 2.1:
Crystal Structures / 2.2:
Crystal Lattices / 2.2.1:
X-ray Diffraction / 2.2.2:
Aluminas / 2.3:
Aluminium Hydroxides and Oxyhydroxides / 2.3.1:
Transition Aluminas / 2.3.2:
¿-Al2 O3 / 2.3.3:
Surface of ¿-Al2 O3 / 2.3.4:
Lewis acid sites / 2.3.5.1:
Brønsted acid sites / 2.3.5.2:
Surface reconstruction / 2.3.5.3:
Silica / 2.4:
Preparation of Supported Catalysts / 2.5:
Adsorption / 3:
Physisorption / 3.1:
Adsorption on Surfaces / 3.1.1:
Langmuir Adsorption Isotherm / 3.1.2:
Multilayer Adsorption, BET / 3.1.3:
Surface Diffusion / 3.2:
Chemisorption / 3.3:
Chemical Bonding / 3.3.1:
Dissociative Chemisorption / 3.3.2:
Kinetics / 4:
Langmuir-Hinshelwood Model / 4.1:
Monomolecular Reaction / 4.1.1:
Surface reaction is rate-determining / 4.1.1.1:
Adsorption of the reactant or product is rate-determining / 4.1.1.2:
Bimolecular Reaction / 4.1.2:
Influence of Diffusion / 4.2:
Bifunctional Catalysis / 4.3:
Metal Surfaces / 5:
Surface Structures / 5.1:
Surface Analysis / 5.2:
X-ray Photoelectron Spectroscopy / 5.2.1:
Auger Electron Spectroscopy / 5.2.2:
Surface Sensitivity / 5.2.3:
Surface Enrichment / 5.3:
Metal Binding / 5.4:
Metal Catalysis / 6:
Dissociation of H2 / 6.1:
Hydrogenation of Ethene / 6.2:
Synthesis of CO and H2 / 6.3:
Hydrogenation of CO / 6.4:
CO Hydrogenation to Hydrocarbons / 6.4.1:
CO dissociation / 6.4.1.1:
Methanation / 6.4.1.2:
Fischer-Tropsch reaction / 6.4.1.3:
Hydrogenation of CO and CO2 to Methanol / 6.4.2:
CO hydrogenation to methanol / 6.4.2.1:
CO2 hydrogenation to methanol / 6.4.2.2:
Hydrogenation of N2 to Ammonia / 6.5:
Fe Catalyst / 6.5.1:
Ru Catalyst / 6.5.2:
Volcano Curves / 6.6:
Catalysis by Solid Acids / 7:
Solid Acid Catalysts / 7.1:
Zeolites / 7.1.1:
Amorphous Silica-Alumina / 7.1.2:
Reactions of Hydrocarbons / 7.2:
Reactions of Alkenes and Alkanes / 7.2.1:
Isomerisation of Pentane, Hexane and Butene / 7.2.2:
Alcohols from Alkenes / 7.3:
Alkylation of Aromatics / 7.4:
Ethylation and Propylation of Benzene / 7.4.1:
Methylation of Toluene / 7.4.2:
Isomerisation, Disproportionation, Transalkylation / 7.4.3:
Gasoline Production / 7.5:
Fluid Catalytic Cracking and Hydrocracking / 7.5.1:
Methanol to Hydrocarbons / 7.5.2:
Reforming of Hydrocarbons by Bifunctional Catalysis / 7.5.3:
Cleaning of Fuels by Hydrotreating / 8:
Hydrotreating / 8.1:
Hydrotreating Catalysts / 8.2:
Metal Sulfides / 8.2.1:
Structure of sulfided Co-Mo/Al2 O3 and Ni-Mo/Al2 O3 / 8.2.1.1:
Active sites / 8.2.1.2:
Metal Phosphides / 8.2.2:
Reaction Mechanisms / 8.3:
Hydro desulfurisation / 8.3.1:
Hydrodenitrogenation / 8.3.2:
Hydrodeoxygenation / 8.3.3:
Hydrotreating of Mixtures / 8.3.4:
Hydrotreating Processes / 8.4:
Hydrodesulfurisation of Naphtha / 8.4.1:
Hydrotreating of Diesel / 8.4.2:
Residue Hydro conversion / 8.4.3:
Oxidation Catalysis / 9:
CO Oxidation / 9.1:
Mechanism / 9.1.1:
Three-way Catalysis / 9.1.2:
Production of Sulfuric and Nitric Acid / 9.2:
Sulfuric Acid / 9.2.1:
Nitric Acid / 9.2.2:
Selective Catalytic Reduction / 9.2.3:
Oxidation of Hydrocarbons / 9.3:
Oxidation by Oxygen / 9.3.1:
Oxidation by Hydroperoxide / 9.3.2:
Selective Partial Oxidation of Hydrocarbons / 9.3.3:
Oxidation of propene to acrylic acid and acrylonitrile / 9.3.3.1:
Oxidation of C4 and C6 molecules / 9.3.3.2:
Platform Chemicals / 9.4:
Electrocatalysis / 10:
Fundamental Aspects / 10.1:
Electrochemical Cells / 10.2.1:
Cell and Electrode Potentials / 10.2.2:
The Nernst Equation / 10.2.3:
Overpotential / 10.2.4:
Electrode Kinetics / 10.2.5:
Experimental Methods and Techniques / 10.3:
Three-Electrode Cell Configuration / 10.3.1:
Techniques for Electrocatalyst Evaluation / 10.3.2:
Linear Sweep Voltammetry and Cyclic Voltammetry / 10.3.3:
Electrochemical Impedance Spectroscopy / 10.3.4:
Rotating Disc Electrode / 10.3.5:
The Electro chemically Active Surface Area / 10.3.6:
Electrocatalysis for the Production of Sustainable Fuels and Chemicals / 10.4:
Development of Electrocatalysts / 10.4.1:
Hydrogen Evolution Reaction / 10.4.2:
Oxygen Evolution Reaction / 10.4.3:
CO2 Electroreduction / 10.4.4:
Other Electrochemical Processes / 10.4.5:
Answers
Index
Preface
About the Authors
Introduction / 1:
51.
図書
P.T. Haromy ... [et al.] ; Herausgeber: W. Saenger
目次情報:
続きを見る
Title Page, Contributors, Preface, Errata
Structures of nucleic acids and their constituents / 2:
Crystal structures of bases, nucleosides, and nucleotides (See Vol.1A) / 2.1:
Crystal structures of oligonucleotides (See Vol.1A) / 2.2:
Crystal structures of tRNAs / D. Moras2.3:
Introduction / 2.3.1:
Experimental methods / 2.3.2:
Data / 2.3.3:
Crystal structures / 2.3.3.1:
Molecular and helical parameters / 2.3.3.2:
References for 2.3 / 2.3.3.3:
The structures of DNA and RNA helices in oriented fibers / R. Chandrasekaran ; S. Arnott2.4:
History (structures) / 2.4.1:
Methods / 2.4.2:
The structures, tables and figures / 2.4.3:
Molecular and crystal structures / 2.4.4:
Cartesian and cylindrical polar coordinates / 2.4.4.2:
Conformation angles / 2.4.4.3:
Base-pair orientations and helical twists / 2.4.4.4:
Groove dimensions / 2.4.4.5:
Phosphate group orientations / 2.4.4.6:
Stereo views of helical structure and views of individual base stacking / 2.4.4.7:
References for 2.4 / 2.4.5:
Crystal structures of metal ion-nucleotide complexes / K. Aoki2.5:
Alkali and alkaline earth metal ion-mononucleotide complexes / 2.5.1:
Group IB metal ion-mononucleotide complexes / 2.5.2.2:
Group IIB metal ion-mononucleotide complexes / 2.5.2.3:
Transition and heavy metal ion-mononucleotide complexes / 2.5.2.4:
Metal ion-oligonucleotide complexes / 2.5.2.5:
References for 2.5 / 2.5.3:
Crystal structures of drug-oligonucleotide complexes / S. Neidle2.6:
Torsion angles / 2.6.1:
References for 2.6 / 2.6.3:
Hydrogen bonding in crystal structures of nucleic acid components / G.A. Jeffrey2.7:
Overview / 2.7.1:
Purines and pyrimidines / 2.7.2.2:
Nucleosides and nucleotides / 2.7.2.3:
Water molecules in purines, pyrimidines, nucleosides and nucleotides / 2.7.2.4:
List of substances investigated / 2.7.3:
References for 2.7 / 2.7.4:
Title Page, Contributors, Preface, Errata
Structures of nucleic acids and their constituents / 2:
Crystal structures of bases, nucleosides, and nucleotides (See Vol.1A) / 2.1:
52.
図書
K. Feyrer
出版情報:
Berlin : Springer, c2007 IX, 322 p. ; 24 cm
子書誌情報:
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目次情報:
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Wire Ropes, Elements and Definitions / 1:
Steel Wire / 1.1:
Non-Alloy Steel / 1.1.1:
Wire Manufacturing / 1.1.2:
Metallic Coating / 1.1.3:
Corrosion Resistant Wires / 1.1.4:
Wire Tensile Test / 1.1.5:
Wire Endurance and Fatigue Strength / 1.1.6:
Strands / 1.2:
Round Strands / 1.2.1:
Shaped Strands / 1.2.2:
Compacted Strands / 1.2.3:
Rope Cores / 1.3:
Lubrication / 1.4:
Lubricant / 1.4.1:
Lubricant Consumption / 1.4.2:
Rope Endurance / 1.4.3:
Wire Ropes / 1.5:
The Classification of Ropes According to Usage / 1.5.1:
Wire Rope Constructions / 1.5.2:
Designation of Wire Ropes / 1.5.3:
Symbols and Definitions / 1.5.4:
The Geometry of Wire Ropes / 1.6:
Round Strand with Round Wires / 1.6.1:
Round Strand with Any Kind of Profiled Wires / 1.6.2:
Fibre Core / 1.6.3:
Steel Core / 1.6.4:
References
Wire Ropes under Tensile Load / 2:
Stresses in Straight Wire Ropes / 2.1:
Basic Relation for the Wire Tensile Force in a Strand / 2.1.1:
Wire Tensile Stress in the Strand or Wire Rope / 2.1.2:
Additional Wire Stresses in the Straight Spiral Rope / 2.1.3:
Additional Wire Stresses in Straight Stranded Ropes / 2.1.4:
Wire Rope Elasticity Module / 2.2:
Definition / 2.2.1:
Rope Elasticity Module of Strands and Spiral Ropes, Calculation / 2.2.2:
Rope Elasticity Module of Stranded Wire Ropes / 2.2.3:
Waves and Vibrations / 2.2.4:
Reduction of the Rope Diameter due to Rope Tensile Force / 2.3:
Torque and Torsional Stiffness / 2.4:
Rope Torque from Geometric Data / 2.4.1:
Torque of Twisted Round Strand Ropes / 2.4.2:
Rotating of the Bottom Sheave / 2.4.3:
Rope Twist Caused by the Height-Stress / 2.4.4:
Change of the Rope Length by Twisting the Rope / 2.4.5:
Wire Stresses Caused by Twisting the Rope / 2.4.6:
Rope Endurance Under Fluctuating Twist / 2.4.7:
Wire Rope Breaking Force / 2.5:
Wire Ropes Under Fluctuating Tension / 2.6:
Conditions of Tension-Tension Tests / 2.6.1:
Evaluating Methods / 2.6.2:
Results of Tension Fatigue Test-Series / 2.6.3:
Further Results of Tension Fatigue Tests / 2.6.4:
Calculation of the Number of Load Cycles / 2.6.5:
Dimensioning Stay Wire Ropes / 2.7:
Extreme Forces / 2.7.1:
Fluctuating Forces / 2.7.2:
Discard Criteria / 2.7.3:
Wire Ropes Under Bending and Tensile Stresses / 3:
Stresses in Running Wire Ropes / 3.1:
Bending and Torsion Stress / 3.1.1:
Secondary Tensile Stress / 3.1.2:
Stresses from the Rope Ovalisation / 3.1.3:
Secondary Bending Stress / 3.1.4:
Sum of the Stresses / 3.1.5:
Force Between Rope and Sheave (Line Pressure) / 3.1.6:
Pressure Between Rope and Sheave / 3.1.7:
Force on the Outer Arcs of the Rope Wires / 3.1.8:
Rope Bending Tests / 3.2:
Bending-Fatigue-Machines, Test Procedures / 3.2.1:
Number of Bending Cycles / 3.2.2:
Further Influences on the Number of Bending Cycles / 3.2.3:
Reverse Bending / 3.2.4:
Fluctuating Tension and Bending / 3.2.5:
Palmgren-Miner Rule / 3.2.6:
Limiting Factors / 3.2.7:
Ropes during Bendings / 3.2.8:
Number of Wire Breaks / 3.2.9:
Rope Drive Requirements / 3.3:
General Requirements / 3.3.1:
Lifting Installations for Passengers / 3.3.2:
Cranes and Lifting Appliances / 3.3.3:
Calculation of Rope Drives / 3.4:
Analysis of Rope Drives / 3.4.1:
Tensile Rope Force / 3.4.2:
Limits / 3.4.3:
Rope Drive Calculations, Examples / 3.4.6:
Rope Efficiency / 3.5:
Single Sheave / 3.5.1:
Rope Drive / 3.5.2:
Lowering an Empty Hook Block / 3.5.3:
Index
Wire Ropes, Elements and Definitions / 1:
Steel Wire / 1.1:
Non-Alloy Steel / 1.1.1:
53.
図書
D.L. Anderson ... [et al.] ; Herausgeber, K. Fuchs, H. Soffel
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
54.
図書
A. Berndt ... [et al.] ; Herausgeber, H. Fischer und K.-H. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
55.
図書
C. Daul ... [et al.] ; Herausgeber, H. Fischer und K.-H. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
56.
図書
A. Berndt, H. Fischer, H. Paul ; Herausgeber, H. Fischer und K.-H. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
57.
図書
W.I. Axford ... [et al.] ; Herausgeber, K. Schaifers und H.H. Voigt
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
58.
図書
J. Bass, K. H. Fischer ; Herausgeber: K.H. Hellwege und J.L. Olsen
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
59.
図書
G. Schudt-Weitz, I. Strell ; Herausgeber, K.-H. Hellwege und A.M. Hellwege
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The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
60.
図書
E. Burzo, A. Chełkowski, H.R. Kirchmayr ; Herausgeber, H.P.J. Wijn
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
61.
図書
E. Schudt, G. Weitz ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
Title Page
Preface
Authors
Introduction / 1:
Subject matter / 1.1:
Arrangement of the tables / 1.2:
List of symbols and abbreviations / 1.3:
Index of space-group symbols / 1.4:
Tables / 2:
C1 - C6
C7 - C13
C14 - C19
C20 - C29
C30 - C39
C40 - C48
C50 - C55
C56 - C120
References / 3:
Index of substances / 4:
Commentary / 4.0:
Comprehensive index of substances / 4.1:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Geophysics
Notations, constants, and general relations / J. DemaisonVolume 16:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Magnetic properties of rare earth elements, alloys and compounds / 6:
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of syrnbols and abbreviations / L. Magaard2.4:
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Elements / E. Burzo ; R. Gersdorf ; G. Zibold1.0:
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
Title Page
Preface
Authors
62.
図書
J. Bystricky ... [et al.] ; Herausgeber, H. Schopper
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
63.
図書
Wolfgang Pies, Alarich Weiss ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
64.
図書
Wolfgang Pies, Alarich Weiss ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
65.
図書
M. Gebhardt, A. Neuhaus ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
66.
図書
K.A. Keller, J. Lange, H. Münzel ; Hrsg., H. Schopper
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
67.
図書
K.A. Keller, J. Lange, H. Münzel ; Hrsg., H. Schopper
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
68.
図書
B. Eisenmann, H. Schäfer ; Herausgeber, K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
69.
図書
A.P. Cracknell ; Herausgeber, K.-H. Hellwege und J.L. Olsen
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
70.
図書
B. Eisenmann, H. Schäfer ; Herausgeber, K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
71.
図書
K. Adachi ... [et al.] ; Herausgeber, H.P.J. Wijn
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
72.
図書
by Herbert Schumann and Ingeborg Schumann
73.
図書
B. Eisenmann, H. Schäfer ; Herausgeber, K.-H. Hellwege und A.M. Hellwege
目次情報:
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The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
74.
図書
Kenneth V. Price, Rainer M. Storn, Jouni A. Lampinen
目次情報:
続きを見る
Preface
Table of Contents
The Motivation for Differential Evolution / 1:
Introduction to Parameter Optimization / 1.1:
Overview / 1.1.1:
Single-Point, Derivative-Based Optimization / 1.1.2:
One-Point, Derivative-Free Optimization and the Step Size Problem / 1.1.3:
Local Versus Global Optimization / 1.2:
Simulated Annealing / 1.2.1:
Multi-Point, Derivative-Based Methods / 1.2.2:
Multi-Point, Derivative-Free Methods / 1.2.3:
Differential Evolution - A First Impression / 1.2.4:
References
The Differential Evolution Algorithm / 2:
Population Structure / 2.1:
Initialization / 2.1.2:
Mutation / 2.1.3:
Crossover / 2.1.4:
Selection / 2.1.5:
DE at a Glance / 2.1.6:
Visualizing DE / 2.1.7:
Notation / 2.1.8:
Parameter Representation / 2.2:
Bit Strings / 2.2.1:
Floating-Point / 2.2.2:
Floating-Point Constraints / 2.2.3:
Initial Bounds / 2.3:
Initial Distributions / 2.3.2:
Base Vector Selection / 2.4:
Choosing the Base Vector Index, r0 / 2.4.1:
One-to-One Base Vector Selection / 2.4.2:
A Comparison of Random Base Index Selection Methods / 2.4.3:
Degenerate Vector Combinations / 2.4.4:
Implementing Mutually Exclusive Indices / 2.4.5:
Gauging the Effects of Degenerate Combinations: The Sphere / 2.4.6:
Biased Base Vector Selection Schemes / 2.4.7:
Differential Mutation / 2.5:
The Mutation Scale Factor: F / 2.5.1:
Randomizing the Scale Factor / 2.5.2:
Recombination / 2.6:
The Role of Cr in Optimization / 2.6.1:
Arithmetic Recombination / 2.6.3:
Phase Portraits / 2.6.4:
The Either/Or Algorithm / 2.6.5:
Survival Criteria / 2.7:
Tournament Selection / 2.7.2:
One-to-One Survivor Selection / 2.7.3:
Local Versus Global Selection / 2.7.4:
Permutation Selection Invariance / 2.7.5:
Crossover-Dependent Selection Pressure / 2.7.6:
Parallel Performance / 2.7.7:
Extensions / 2.7.8:
Termination Criteria / 2.8:
Objective Met / 2.8.1:
Limit the Number of Generations / 2.8.2:
Population Statistics / 2.8.3:
Limited Time / 2.8.4:
Human Monitoring / 2.8.5:
Application Specific / 2.8.6:
Benchmarking Differential Evolution / 3:
About Testing / 3.1:
Performance Measures / 3.2:
DE Versus DE / 3.3:
The Algorithms / 3.3.1:
The Test Bed / 3.3.2:
Summary / 3.3.3:
DE Versus Other Optimizers / 3.4:
Comparative Performance: Thirty-Dimensional Functions / 3.4.1:
Comparative Studies: Unconstrained Optimization / 3.4.2:
Performance Comparisons from Other Problem Domains / 3.4.3:
Application-Based Performance Comparisons / 3.4.4:
Problem Domains / 3.5:
Function and Parameter Quantization / 4.1:
Uniform Quantization / 4.2.1:
Non-Uniform Quantization / 4.2.2:
Objective Function Quantization / 4.2.3:
Parameter Quantization / 4.2.4:
Mixed Variables / 4.2.5:
Optimization with Constraints / 4.3:
Boundary Constraints / 4.3.1:
Inequality Constraints / 4.3.2:
Equality Constraints / 4.3.3:
Combinatorial Problems / 4.4:
The Traveling Salesman Problem / 4.4.1:
The Permutation Matrix Approach / 4.4.2:
Relative Position Indexing / 4.4.3:
Onwubolu's Approach / 4.4.4:
Adjacency Matrix Approach / 4.4.5:
Design Centering / 4.4.6:
Divergence, Self-Steering and Pooling / 4.5.1:
Computing a Design Center / 4.5.2:
Multi-Objective Optimization / 4.6:
Weighted Sum of Objective Functions / 4.6.1:
Pareto Optimality / 4.6.2:
The Pareto-Front: Two Examples / 4.6.3:
Adapting DE for Multi-Objective Optimization / 4.6.4:
Dynamic Objective Functions / 4.7:
Stationary Optima / 4.7.1:
Non-Stationary Optima / 4.7.2:
Architectural Aspects and Computing Environments / 5:
DE on Parallel Processors / 5.1:
Background / 5.1.1:
Related Work / 5.1.2:
Drawbacks of the Standard Model / 5.1.3:
Modifying the Standard Model / 5.1.4:
The Master Process / 5.1.5:
DE on Limited Resource Devices / 5.2:
Random Numbers / 5.2.1:
Permutation Generators / 5.2.2:
Efficient Sorting / 5.2.3:
Memory-Saving DE Variants / 5.2.4:
Computer Code / 6:
DeMat - Differential Evolution for MATLAB / 6.1:
General Structure of DeMat / 6.1.1:
Naming and Coding Conventions / 6.1.2:
Data Flow Diagram / 6.1.3:
How to Use the Graphics / 6.1.4:
DeWin - DE for MS Windows: An Application in C / 6.2:
General Structure of DeWin / 6.2.1:
How To Use the Graphics / 6.2.2:
Functions of graphics.h / 6.2.5:
Software on the Accompanying CD / 6.3:
Applications / 7:
Genetic Algorithms and Related Techniques for Optimizing Si-H Clusters: A Merit Analysis for Differential Evolution / 7.1:
Introduction / 7.1.1:
The System Model / 7.1.2:
Computational Details / 7.1.3:
Results and Discussion / 7.1.4:
Concluding Remarks / 7.1.5:
Non-Imaging Optical Design Using Differential Evolution / 7.2:
Objective Function / 7.2.1:
A Reverse Engineering Approach to Testing / 7.2.3:
A More Difficult Problem: An Extended Source / 7.2.4:
Conclusion / 7.2.5:
Optimization of an Industrial Compressor Supply System / 7.3:
Background Information on the Test Problem / 7.3.1:
System Optimization / 7.3.3:
Demand Profiles / 7.3.4:
Modified Differential Evolution; Extending the Generality of DE / 7.3.5:
Component Selection from the Database / 7.3.6:
Crossover Approaches / 7.3.7:
Testing Procedures / 7.3.8:
Obtaining 100% Certainty of the Results / 7.3.9:
Results / 7.3.10:
Minimal Representation Multi-Sensor Fusion Using Differential Evolution / 7.3.11:
Minimal Representation Multi-Sensor Fusion / 7.4.1:
Differential Evolution for Multi-Sensor Fusion / 7.4.3:
Experimental Results / 7.4.4:
Comparison with a Binary Genetic Algorithm / 7.4.5:
Determination of the Earthquake Hypocenter: A Challenge for the Differential Evolution Algorithm / 7.4.6:
Brief Outline of Direct Problem Solution / 7.5.1:
Synthetic Location Test / 7.5.3:
Convergence Properties / 7.5.4:
Conclusions / 7.5.5:
Parallel Differential Evolution: Application to 3-D Medical Image Registration / 7.6:
Medical Image Registration Using Similarity Measures / 7.6.1:
Optimization by Differential Evolution / 7.6.3:
Parallelization of Differential Evolution / 7.6.4:
Acknowledgments / 7.6.5:
Design of Efficient Erasure Codes with Differential Evolution / 7.7:
Codes from Bipartite Graphs / 7.7.1:
Code Design / 7.7.3:
Differential Evolution / 7.7.4:
FIWIZ - A Versatile Program for the Design of Digital Filters Using Differential Evolution / 7.7.5:
Unconventional Design Tasks / 7.8.1:
Approach / 7.8.3:
Examples / 7.8.4:
Optimization of Radial Active Magnetic Bearings by Using Differential Evolution and the Finite Element Method / 7.8.5:
Radial Active Magnetic Bearings / 7.9.1:
Magnetic Field Distribution and Force Computed by the Two-Dimensional FEM / 7.9.3:
RAMB Design Optimized by DE and the FEM / 7.9.4:
Application of Differential Evolution to the Analysis of X-Ray Reflectivity Data / 7.9.5:
The Data-Fitting Procedure / 7.10.1:
The Model and Simulation / 7.10.3:
Inverse Fractal Problem / 7.10.4:
General Introduction / 7.11.1:
Active Compensation in RF-Driven Plasmas by Means of Differential Evolution / 7.11.2:
RF-Driven Plasmas / 7.12.1:
Langmuir Probes / 7.12.3:
Active Compensation in RF-Driven Plasmas / 7.12.4:
Automated Control System Structure and Fitness Function / 7.12.5:
Experimental Setup / 7.12.6:
Parameters and Experimental Design / 7.12.7:
Appendix / 7.12.8:
Unconstrained Uni-Modal Test Functions / A.1:
Sphere / A.1.1:
Hyper-Ellipsoid / A.1.2:
Generalized Rosenbrock / A.1.3:
Schwefel's Ridge / A.1.4:
Neumaier #3 / A.1.5:
Unconstrained Multi-Modal Test Functions / A.2:
Ackley / A.2.1:
Griewangk / A.2.2:
Rastrigin / A.2.3:
Salomon / A.2.4:
Whitley / A.2.5:
Storn's Chebyshev / A.2.6:
Lennard-Jones / A.2.7:
Hilbert / A.2.8:
Modified Langerman / A.2.9:
Shekel's Foxholes / A.2.10:
Odd Square / A.2.11:
Katsuura / A.2.12:
Bound-Constrained Test Functions / A.3:
Schwefel / A.3.1:
Epistatic Michalewicz / A.3.2:
Rana / A.3.3:
Index
Preface
Table of Contents
The Motivation for Differential Evolution / 1:
75.
図書
Gregory Falkovich
出版情報:
Cambridge : Cambridge University Press, 2011 xii, 167 p. ; 24 cm
子書誌情報:
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所蔵情報:
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目次情報:
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Preface
Prologue
Basic equations and steady flows / 1:
Definitions and basic equations / 1.1:
Definitions / 1.1.1:
Equations of motion for an ideal fluid / 1.1.2:
Hydrostatics / 1.1.3:
Isentropic motion / 1.1.4:
Conservation laws and potential flows / 1.2:
Kinematics / 1.2.1:
Kelvin's theorem / 1.2.2:
Energy and momentum fluxes / 1.2.3:
Irrotational and incompressible flows / 1.2.4:
Flow past a body / 1.3:
Incompressible potential flow past a body / 1.3.1:
Moving sphere / 1.3.2:
Moving body of an arbitrary shape / 1.3.3:
Quasi-momentum and induced mass / 1.3.4:
Viscosity / 1.4:
Reversibility paradox / 1.4.1:
Viscous stress tensor / 1.4.2:
Navier-Stokes equation / 1.4.3:
Law of similarity / 1.4.4:
Stokes flow and the wake / 1.5:
Slow motion / 1.5.1:
The boundary layer and the separation phenomenon / 1.5.2:
Flow transformations / 1.5.3:
Drag and lift with a wake / 1.5.4:
Exercises
Unsteady flows / 2:
Instabilities / 2.1:
Kelvin-Helmholtz instability / 2.1.1:
Energetic estimate of the stability threshold / 2.1.2:
Landau's law / 2.1.3:
Turbulence / 2.2:
Cascade / 2.2.1:
Turbulent river and wake / 2.2.2:
Acoustics / 2.3:
Sound / 2.3.1:
Riemann wave / 2.3.2:
Burgers equation / 2.3.3:
Acoustic turbulence / 2.3.4:
Mach number / 2.3.5:
Dispersive waves / 3:
Linear waves / 3.1:
Surface gravity waves / 3.1.1:
Viscous dissipation / 3.1.2:
Capillary waves / 3.1.3:
Phase and group velocity / 3.1.4:
Weakly non-linear waves / 3.2:
Hamiltonian description / 3.2.1:
Hamiltonian normal forms / 3.2.2:
Wave instabilities / 3.2.3:
Non-linear Schrödinger equation (NSE) / 3.3:
Derivation of NSE / 3.3.1:
Modulational instability / 3.3.2:
Soliton, collapse and turbulence / 3.3.3:
Korteveg-de-Vries (KdV) equation / 3.4:
Waves in shallow water / 3.4.1:
The KdV equation and the soliton / 3.4.2:
Inverse scattering transform / 3.4.3:
Solutions to exercises / 4:
Chapter 1
Chapter 2
Chapter 3
Epilogue
Notes
References
Index
Preface
Prologue
Basic equations and steady flows / 1:
76.
図書
Helena E. Nusse, James A. Yorke
目次情報:
続きを見る
Preface
Getting the program running / 1:
The Dynamics program and hardware Smalldyn: a small version of Dynamics / 1.1:
Getting started with Dynamics Using the mouse Appendix: description of the interrupts / 1.2:
Questions / 1.3:
Samples of Dynamics: pictures you can make simply / 2:
Introduction Example / 2.1:
Plot a trajectory Example / 2-1a:
Draw a box Example / 2-1b:
Viewing the Parameter Menu Example / 2-1c:
Refresh the screen and continue plotting Example / 2-1d:
Clear the screen and continue plotting Example / 2-1e:
Single stepping through a trajectory Example / 2-1f:
Plot a cross at current position Example / 2-1g:
Draw axes and print picture Example / 2-1h:
Initializing Example / 2-1i:
Viewing the Y Vectors Example / 2-1j:
Find a fixed point Example / 2-1k:
Find a period 2 orbit Example / 2-1l:
Search for all periodic points of period 5 Example / 2-1m:
Change RHO Example / 2-1n:
Plotting permanent crosses Example / 2-1o:
Set storage vector y1 and initialize Example / 2-1p:
Change X Scale or Y Scale / 2-1q:
Complex pictures that are simple to make Example / 2.2:
Chaotic attractor Example / 2-2a:
Computing Lyapunov exponents Example / 2-2b:
Plotting trajectory versus time Example / 2-2c:
Graph of iterate of one dimensional map Example / 2-3a:
Cobweb plot of a trajectory Example / 2-3b:
The Henon attractor Example / 2-3c:
The first iterate of a quadrilateral Example / 2-5:
Plotting direction field and trajectories Example / 2-6:
Bifurcation diagram for the quadratic map Example / 2-7:
Bifurcation diagram with bubbles Example / 2-8:
All the Basins and Attractors Example / 2-9:
Metamorphoses in the basin of infinity Example / 2-10:
Search for all periodic points with period 10 Example / 2-11:
Search for all period 1 and period 2 points Example / 2-12:
Following orbits as a parameter is varied Example / 2-13:
The Mandelbrot set Example / 2-14:
3-Dimensional views on the Lorenz attractor Example / 2-15:
Unstable manifold of a fixed point Example / 2-17:
Stable and unstable manifolds Example / 2-18:
Plotting a Saddle Straddle Trajectory Example / 2-19a:
The unstable manifold of a fixed point Example / 2-19b:
The stable manifold of a fixed point Example / 2-19c:
Saddle Straddle Trajectory, and manifolds Example / 2-19d:
The basin of attraction of infinity Example / 2-20:
A trajectory on a basin boundary Example / 2-21:
A BST trajectory for the Tinkerbell map Example / 2-22:
Lyapunov exponent bifurcation diagram Example / 2-23:
Chaotic parameters Example / 2-24:
Box-counting dimension of an attractor Example / 2-25:
Zooming in on the Tinkerbell attractor Example / 2-26:
Period plot in the Mandelbrot set Appendix Commands for plotting a graph Commands from the Numerical / 2-27:
Explorations Menu Plotting multiple trajectories simultaneously
Screen utilities / 3:
Basic screen features (Screen Menu SM) / 3.1:
Commands for clearing the screen Commands for controlling the screen Level of Text output
Writing on pictures
The arrow keys and boxes (BoX Menu, BXM) / 3.2:
Initializing trajectories, plotting crosses, drawing circles and their iterates (Kruis Menu KM) / 3.3:
Drawing axes (AXes Menu AXM) / 3.4:
Windows and rescaling (Window Menu WM) Detailed view on the structure of an attractor / 3.5:
Zooming in or zooming out (ZOOm Menu ZOOM) / 3.6:
Setting colors (Color Menu CM and Color Table Menu CTM) Color screens Core copy of the picture / 3.7:
Color planes Commands for erasing colors
Utilities / 4:
Setting parameters (Parameter Menu PM) / 4.1:
Setting and replacing a vector (Vector Menu VM) Y Vectors "Own" and the coordinates of yÃââÇ ÃâÅô / 4.2:
Setting step size (Differential Equation Menu DEM) / 4.3:
Saving pictures and data (Disk Menu DM) Creating a batch file of commands Commands for reading disk files / 4.4:
Setting the size of the core (Size of Core Menu SCM) / 4.5:
Printing pictures (PriNter Menu PNM) Commands for specifying printer / 4.6:
Encapsulated PostScript Commands for printer options
Text to printer Printing color pictures
Printing pictures with any p
Preface
Getting the program running / 1:
The Dynamics program and hardware Smalldyn: a small version of Dynamics / 1.1:
77.
図書
Jean-Pierre Colinge, editor
目次情報:
続きを見る
Preface
Table of Content
Contributors
The SOI MOSFET: from Single Gate to Multigate / 1:
MOSFET scaling and Moore's law / 1.1:
Short-Channel Effects / 1.2:
Gate Geometry and Electrostatic Integrity / 1.3:
A Brief History of Multiple-Gate MOSFETs / 1.4:
Single-gate SOI MOSFETs / 1.4.1:
Double-gate SOI MOSFETs / 1.4.2:
Triple-gate SOI MOSFETs / 1.4.3:
Surrounding-gate (quadruple-gate) SOI MOSFETs / 1.4.4:
Other multigate MOSFET structures / 1.4.5:
Multigate MOSFET memory devices / 1.4.6:
Multigate MOSFET Physics / 1.5:
Classical physics / 1.5.1:
Natural length and short-channel effects / 1.5.1.1:
Current drive / 1.5.1.2:
Corner effect / 1.5.1.3:
Quantum effects / 1.5.2:
Volume inversion / 1.5.2.1:
Mobility effects / 1.5.2.2:
Threshold voltage / 1.5.2.3:
Inter-subband scattering / 1.5.2.4:
References
Multigate MOSFET Technology / 2:
Introduction / 2.1:
Active Area: Fins / 2.2:
Fin Width / 2.2.1:
Fin Height and Fin Pitch / 2.2.2:
Fin Surface Crystal Orientation / 2.2.3:
Fin Surface Preparation / 2.2.4:
Fins on Bulk Silicon / 2.2.5:
Nano-wires and Self-Assembled Wires / 2.2.6:
Gate Stack / 2.3:
Gate Patterning / 2.3.1:
Threshold Voltage and Gate Workfunction Requirements / 2.3.2:
Polysilicon Gate / 2.3.2.1:
Metal Gate / 2.3.2.2:
Tunable Workfunction Metal Gate / 2.3.2.3:
Gate EWF and Gate Induced Drain Leakage (GIDL) / 2.3.3:
Independently Controlled Gates / 2.3.4:
Source/Drain Resistance and Capacitance / 2.4:
Doping the Thin Fins / 2.4.1:
Junction Depth / 2.4.2:
Parasitic Resistance/Capacitance and Raised Source and Drain Structure / 2.4.3:
Mobility and Strain Engineering / 2.5:
Wafer Bending Experiment / 2.5.1:
Nitride Stress Liners / 2.5.3:
Embedded SiGe and SiC Source and Drain / 2.5.4:
Local Strain from Gate Electrode / 2.5.5:
Substrate Strain: Strained Silicon on Insulator / 2.5.6:
Contacts to the Fins / 2.6:
Dumbbell source and drain contact / 2.6.1:
Saddle contact / 2.6.2:
Contact to merged fins / 2.6.3:
Acknowledgments
BSIM-CMG: A Compact Model for Multi-Gate Transistors / 3:
Framework for Multigate FET Modeling / 3.1:
Multigate Models: BSIM-CMG and BSIM-IMG / 3.3:
The BSIM-CMG Model / 3.3.1:
The BSIM-IMG Model / 3.3.2:
BSIM-CMG / 3.4:
Core Model / 3.4.1:
Surface Potential Model / 3.4.1.1:
I-V Model / 3.4.1.2:
C-V Model / 3.4.1.3:
Modeling Physical Effects of Real Devices / 3.4.2:
Quantum Mechanical Effects (QME) / 3.4.2.1:
Short-channel Effects (SCE) / 3.4.2.2:
Experimental Verification / 3.4.3:
Surface Potential of independent DG-FET / 3.5:
BSIM-IMG features / 3.5.2:
Summary / 3.6:
Physics of the Multigate MOS System / 4:
Device electrostatics / 4.1:
Double gate MOS system / 4.2:
Modeling assumptions / 4.2.1:
Gate voltage effect / 4.2.2:
Semiconductor thickness effect / 4.2.3:
Asymmetry effects / 4.2.4:
Oxide thickness effect / 4.2.5:
Electron tunnel current / 4.2.6:
Two-dimensional confinement / 4.3:
Mobility in Multigate MOSFETs / 5:
Double-Gate MOSFETs and FinFETs / 5.1:
Phonon-limited mobility / 5.2.1:
Confinement of acoustic phonons / 5.2.2:
Interface roughness scattering / 5.2.3:
Coulomb scattering / 5.2.4:
Temperature Dependence of Mobility / 5.2.5:
Symmetrical and Asymmetrical Operation of DGSOI FETs / 5.2.6:
Crystallographic orientation / 5.2.7:
High-k dielectrics / 5.2.8:
Strained DGSOI devices / 5.2.9:
Silicon multiple-gate nanowires / 5.2.10:
Electrostatic description of Si nanowires / 5.3.1:
Electron transport in Si nanowires / 5.3.3:
Surface roughness / 5.3.4:
Experimental results and conclusions / 5.3.5:
Radiation Effects in Advanced Single- and Multi-Gate SOI MOSFETs / 6:
A brief history of radiation effects in SOI / 6.1:
Total Ionizing Dose Effects / 6.2:
A brief overview of Total Ionizing Dose effects / 6.2.1:
Advanced Single-Gate FDSOI devices / 6.2.2:
Description of Advanced FDSOI Devices / 6.2.2.1:
Front-gate threshold voltage shift / 6.2.2.2:
Single-transistor latch / 6.2.2.3:
Advanced Multi-Gate devices / 6.2.3:
Devices and process description / 6.2.3.1:
Single-Event Effects / 6.2.3.2:
Background / 6.3.1:
Effect of ion track diameter in nanoscale devices / 6.3.2:
Transient measurements on single-gate and FinFET SOI transistors / 6.3.3:
Scaling effects / 6.3.4:
Multi-Gate MOSFET Circuit Design / 7:
Digital Circuit Design / 7.1:
Impact of device performance on digital circuit design / 7.2.1:
Large-scale digital circuits / 7.2.2:
Leakage-performance trade off and energy dissipation / 7.2.3:
Multi-V[subscript T] devices and mixed-V[subscript T] circuits / 7.2.4:
High-temperature circuit operation / 7.2.5:
SRAM design / 7.2.6:
Analog Circuit Design / 7.3:
Device figures of merit and technology related design issues / 7.3.1:
Transconductance / 7.3.1.1:
Intrinsic transistor gain / 7.3.1.2:
Matching behavior / 7.3.1.3:
Flicker noise / 7.3.1.4:
Transit and maximum oscillation frequency / 7.3.1.5:
Self-heating / 7.3.1.6:
Charge trapping in high-k dielectrics / 7.3.1.7:
Design of analog building blocks / 7.3.2:
V-[subscript T]-based current reference circuit / 7.3.2.1:
Bandgap voltage reference / 7.3.2.2:
Operational amplifier / 7.3.2.3:
Comparator / 7.3.2.4:
Mixed-signal aspects / 7.3.3:
Current steering DAC / 7.3.3.1:
Successive approximation ADC / 7.3.3.2:
RF circuit design / 7.3.4:
SoC Design and Technology Aspects / 7.4:
Index
Preface
Table of Content
Contributors
78.
図書
Jesse M. Kinder and Philip Nelson
出版情報:
Princeton : Princeton University Press, c2021 xiii, 223 p. ; 26 cm
子書誌情報:
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Let's Go
Getting Started with Python / 1:
Algorithms and algorithmic thinking / 1.1:
Algorithmic thinking / 1.1.1:
States / 1.1.2:
What does a = a + 1 mean? / 1.1.3:
Symbolic versus numerical / 1.1.4:
Launch Python / 1.2:
IPython console / 1.2.1:
Error messages / 1.2.2:
Sources of help / 1.2.3:
Good practice: Keep a log / 1.2.4:
Python modules / 1.3:
Import / 1.3.1:
From … import / 1.3.2:
NumPy and PyPlot / 1.3.3:
Python expressions / 1.4:
Numbers / 1.4.1:
Arithmetic operations and predefined functions / 1.4.2:
Good practice: Variable names / 1.4.3:
More about functions / 1.4.4:
Organizing Data / 2:
Objects and their methods / 2.1:
Lists, tuples, and arrays / 2.2:
Creating a list or tuple / 2.2.1:
NumPy arrays / 2.2.2:
Filling an array with values / 2.2.3:
Concatenation of arrays / 2.2.4:
Accessing array elements / 2.2.5:
Arrays and assignments / 2.2.6:
Slicing / 2.2.7:
Flattening an array / 2.2.8:
Reshaping an array / 2.2.9:
T2 Lists and arrays as indices / 2.2.10:
Strings / 2.3:
Raw strings / 2.3.1:
Formatting strings with the format () method / 2.3.2:
T2 Formatting strings with % / 2.3.3:
Structure and Control / 3:
Loops / 3.1:
For loops / 3.1.1:
While loops / 3.1.2:
Very long loops / 3.1.3:
Infinite loops / 3.1.4:
Array operations / 3.2:
Vectorizing math / 3.2.1:
Matrix math / 3.2.2:
Reducing an array / 3.2.3:
Scripts / 3.3:
The Editor / 3.3.1:
T2 Other editors / 3.3.2:
First steps to debugging / 3.3.3:
Good practice: Commenting / 3.3.4:
Good practice: Using named parameters / 3.3.5:
Good practice: Units / 3.3.6:
Contingent behavior: Branching / 3.4:
The if statement / 3.4.1:
Testing equality of floats / 3.4.2:
Nesting / 3.5:
Data In, Results Out / 4:
Importing data / 4.1:
Obtaining data / 4.1.1:
Bringing data into Python / 4.1.2:
Exporting data / 4.2:
Data files / 4.2.1:
Visualizing data / 4.3:
The plot command and its relatives / 4.3.1:
Log axes / 4.3.2:
Manipulate and embellish / 4.3.3:
Replacing curves / 4.3.4:
T2 More about figures and their axes / 4.3.5:
T2 Error bars / 4.3.6:
3D graphs / 4.3.7:
Multiple plots / 4.3.8:
Subplots / 4.3.9:
Saving figures / 4.3.10:
T2 Using figures in other applications / 4.3.11:
First Computer Lab / 5:
HIV example / 5.1:
Explore the model / 5.1.1:
Fit experimental data / 5.1.2:
Bacterial example / 5.2:
Random Number Generation and Numerical Methods / 5.2.1:
Writing your own functions / 6.1:
Defining functions in Python / 6.1.1:
Updating functions / 6.1.2:
Arguments, keywords, and defaults / 6.1.3:
Return values / 6.1.4:
Functional programming / 6.1.5:
Random numbers and simulation / 6.2:
Simulating coin flips / 6.2.1:
Generating trajectories / 6.2.2:
Histograms and bar graphs / 6.3:
Creating histograms / 6.3.1:
Finer control / 6.3.2:
Contour plots, surface plots, and heat maps / 6.4:
Generating a grid of points / 6.4.1:
Contour plots / 6.4.2:
Surface plots / 6.4.3:
Heat maps / 6.4.4:
Numerical solution of nonlinear equations / 6.5:
General real functions / 6.5.1:
Complex roots of polynomials / 6.5.2:
Solving systems of linear equations / 6.6:
Numerical integration / 6.7:
Integrating a predefined function / 6.7.1:
Integrating your own function / 6.7.2:
Oscillatory integrands / 6.7.3:
T2 Parameter dependence / 6.7.4:
Numerical solution of differential equations / 6.8:
Reformulating the problem / 6.8.1:
Solving an ODE / 6.8.2:
Other ODE solvers / 6.8.3:
Vector fields and streamlines / 6.9:
Vector fields / 6.9.1:
Streamlines / 6.9.2:
Second Computer Lab / 7:
Generating and plotting trajectories / 7.1:
Plotting the displacement distribution / 7.2:
Rare events / 7.3:
The Poisson distribution / 7.3.1:
Waiting times / 7.3.2:
Images and Animation / 8:
Image processing / 8.1:
Images as NumPy arrays / 8.1.1:
Saving and displaying images / 8.1.2:
Manipulating images / 8.1.3:
Displaying data as an image / 8.2:
Animation / 8.3:
Creating animations / 8.3.1:
Saving animations / 8.3.2:
HTML movies
T2 Using an encoder
Conclusion / 8.3.3:
Third Computer Lab / 9:
Convolution / 9.1:
Python tools for image processing / 9.1.1:
Averaging / 9.1.2:
Smoothing with a Gaussian / 9.1.3:
Denoising an image / 9.2:
Emphasizing features / 9.3:
T2 Image files and arrays / 9.4:
Advanced Techniques / 10:
Dictionaries and generators / 10.1:
Dictionaries / 10.1.1:
Special function arguments / 10.1.2:
List comprehensions and generators / 10.1.3:
Tools for data science / 10.2:
Series and data frames with pandas / 10.2.1:
Machine learning with scikit-learn / 10.2.2:
Next steps / 10.2.3:
Symbolic computing / 10.3:
Wolfram Alpha / 10.3.1:
The SymPy library / 10.3.2:
Other alternatives / 10.3.3:
First passage revisited / 10.3.4:
Writing your own classes / 10.4:
A random walk class / 10.4.1:
When to use classes / 10.4.2:
Get Going
Installing Python / A:
Install Python and Spyder / A.1:
Graphical installation / A.1.1:
Command line installation / A.1.2:
Setting up Spyder / A.2:
Working directory / A.2.1:
Interactive graphics / A.2.2:
Script template / A.2.3:
Restart / A.2.4:
Keeping up to date / A.3:
Installing FFmpeg / A.4:
Installing ImageMagick / A.5:
Command Line Tools / B:
The command line / B.1:
Navigating your file system / B.1.1:
Creating, renaming, moving, and removing files / B.1.2:
Creating and removing directories / B.1.3:
Python and Conda / B.1.4:
Text editors / B.2:
Version control / B.3:
How Git works / B.3.1:
Installing and using Git / B.3.2:
Tracking changes and synchronizing repositories / B.3.3:
Summary of useful workflows / B.3.4:
Troubleshooting / B.3.5:
Jupyter Notebooks / B.4:
Getting started / C.1:
Launch Jupyter Notebooks / C.1.1:
Open a notebook / C.1.2:
Multiple notebooks / C.1.3:
Quitting Jupyter / C.1.4:
T2 Setting the default directory / C.1.5:
Cells / C.2:
Code cells / C.2.1:
Graphics / C.2.2:
Markdown cells / C.2.3:
Edit mode and command mode / C.2.4:
Sharing / C.3:
More details / C.4:
Pros and cons / C.5:
Errors and Error Messages / D:
Python errors in general / D.1:
Some common errors / D.2:
Python 2 versus Python 3 / E:
Division / E.1:
Print command / E.2:
User input / E.3:
More assistance / E.4:
Under the Hood / F:
Assignment statements / F.1:
Memory management / F.2:
Functions / F.3:
Scope / F.4:
Name collisions / F.4.1:
Variables passed as arguments / F.4.2:
Summary / F.5:
Answers to "Your Turn" Questions / G:
Acknowledgments
Recommended Reading
Index
Let's Go
Getting Started with Python / 1:
Algorithms and algorithmic thinking / 1.1:
79.
図書
G. W. H. Cheeseman, R. F. Cookson
目次情報:
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General Introduction to Quinoxaline Chemistry
Quinoxaline--The Parent Heterocycle
Quinoxalines Unsubstituted in the Heteroring
Quinoxaline Mono- and Di-N-oxides
Quinoxaline-2-ones and Quinoxaline-2,3-diones
Quinoxaline-2-thiones and Quinoxaline-2,3-dithiones
Quinoxaline-2-carboxaldehydes and Quinoxaline-2,3 dicarboxaldehydes
Quinoxaline 2-Ketones and 2,3-Diketones
Quinoxaline-2-carboxylic Acids and Quinoxaline-2,3 dicarboxylic Acids
2-Halogenoquinoxalines and 2,3-Dihalogenoquinoxalines
2-Aminoquinoxalines and 2,3-Diaminoquinoxalines
2-Hydrazinoquinoxalines
2-Alkoxy-, 2-Aryloxy-, 2,3-Dialkoxy-,2-Alkoxy-, 3-aryloxy-, and 2,3-Diaryloxquinoxalines
2-Alkyl- and 2,3-Dialkylquinoxalines
2-Aryl(heteroaryl)- and 2,3-Diaryl(diheteroaryl)quinoxalines
2-Polyhydroxyalkylquinoxalines
Quinoxaline Quaternary Salts
Reduced Quinoxalines
Salts
Pyrrolo [1,2-a] pyrazines
Pyrrolo[b]pyrazines
Imidazopyrazines
Pyrazolopyrazines
Triazolo- and Tetrazolopyrazines
Furo-, Oxazolo-, Isoxazolo-, and Oxadiazolopyrazines
Thieno-, Thiazolo-, Isothiazolo-, and Thiadiazolopyrazines
Miscellaneous 5,6-Systems
Pyrido[1,2-a] pyrazines
Pyrido[2,3-b]pyrazines
Pyrido[3,4-b]pyrazines
Pyrazinopyrimidines
Pyrazinopyrazines
Pyrazinotriazines and Pyrazinotetrazines
Pyrazinooxazines
Pyrazinothiazines
Pyrroloquinoxalines
Imidazoquinoxalines
Pyrazoloquinoxaline
Benzo[f]quinoxalines
Benzo[g]quinoxalines
Pyridoquinoxalines
Author Index?
Subject Index
General Introduction to Quinoxaline Chemistry
Quinoxaline--The Parent Heterocycle
Quinoxalines Unsubstituted in the Heteroring
80.
図書
International Institute of Refrigeration
81.
図書
Saeid Sanei and Jonathon Chambers
出版情報:
Chichester : John Wiley & Sons, c2007 xxii, 289 p. ; 25 cm
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Preface
List of Abbreviations
List of Symbols
Introduction to EEG / 1:
History / 1.1:
Neural Activities / 1.2:
Action Potentials / 1.3:
EEG Generation / 1.4:
Brain Rhythms / 1.5:
EEG Recording and Measurement / 1.6:
Conventional Electrode Positioning / 1.6.1:
Conditioning the Signals / 1.6.2:
Abnormal EEG Patterns / 1.7:
Ageing / 1.8:
Mental Disorders / 1.9:
Dementia / 1.9.1:
Epileptic Seizure and Nonepileptic Attacks / 1.9.2:
Psychiatric Disorders / 1.9.3:
External Effects / 1.9.4:
Summary and Conclusions / 1.10:
References
Fundamentals of EEG Signal Processing / 2:
EEG Signal Modelling / 2.1:
Linear Models / 2.1.1:
Nonlinear Modelling / 2.1.2:
Generating EEG Signals Based on Modelling the Neuronal Activities / 2.1.3:
Nonlinearity of the Medium / 2.2:
Nonstationarity / 2.3:
Signal Segmentation / 2.4:
Signal Transforms and Joint Time-Frequency Analysis / 2.5:
Wavelet Transform / 2.5.1:
Ambiguity Function and the Wigner-Ville Distribution / 2.5.2:
Coherency, Multivariate Autoregressive (MVAR) Modelling, and Directed Transfer Function (DTF) / 2.6:
Chaos and Dynamical Analysis / 2.7:
Entropy / 2.7.1:
Kolmogorov Entropy / 2.7.2:
Lyapunov Exponents / 2.7.3:
Plotting the Attractor Dimensions from the Time Series / 2.7.4:
Estimation of Lyapunov Exponents from the Time Series / 2.7.5:
Approximate Entropy / 2.7.6:
Using the Prediction Order / 2.7.7:
Filtering and Denoising / 2.8:
Principal Component Analysis / 2.9:
Singular-Value Decomposition / 2.9.1:
Independent Component Analysis / 2.10:
Instantaneous BSS / 2.10.1:
Convolutive BSS / 2.10.2:
Sparse Component Analysis / 2.10.3:
Nonlinear BSS / 2.10.4:
Constrained BSS / 2.10.5:
Application of Constrained BSS: Example / 2.11:
Signal Parameter Estimation / 2.12:
Classification Algorithms / 2.13:
Support Vector Machines / 2.13.1:
The k-Means Algorithm / 2.13.2:
Matching Pursuits / 2.14:
Event-Related Potentials / 2.15:
Detection, Separation, Localization, and Classification of P300 Signals / 3.1:
Using ICA / 3.1.1:
Estimating Single Brain Potential Components by Modelling ERP Waveforms / 3.1.2:
Source Tracking / 3.1.3:
Localization of the ERP / 3.1.4:
Time-Frequency Domain Analysis / 3.1.5:
Adaptive Filtering Approach / 3.1.6:
Prony's Approach for Detection of P300 Signals / 3.1.7:
Adaptive Time-Frequency Methods / 3.1.8:
Brain Activity Assessment Using ERP / 3.2:
Application of P300 to BCI / 3.3:
Seizure Signal Analysis / 3.4:
Seizure Detection / 4.1:
Adult Seizure Detection / 4.1.1:
Detection of Neonate Seizure / 4.1.2:
Chaotic Behaviour of EEG Sources / 4.2:
Predictability of Seizure from the EEGs / 4.3:
Fusion of EEG-fMRI Data for Seizure Prediction / 4.4:
EEG Source Localization / 4.5:
Introduction / 5.1:
General Approaches to Source Localization / 5.1.1:
Dipole Assumption / 5.1.2:
Overview of the Traditional Approaches / 5.2:
ICA Method / 5.2.1:
MUSIC Algorithm / 5.2.2:
LORETA Algorithm / 5.2.3:
FOCUSS Algorithm / 5.2.4:
Standardized LORETA / 5.2.5:
Other Weighted Minimum Norm Solutions / 5.2.6:
Evaluation Indices / 5.2.7:
Joint ICA-LORETA Approach / 5.2.8:
Partially Constrained BSS Method / 5.2.9:
Determination of the Number of Sources / 5.3:
Sleep EEG / 5.4:
Stages of Sleep / 6.1:
NREM Sleep / 6.1.1:
REM Sleep / 6.1.2:
The Influence of Circadian Rhythms / 6.2:
Sleep Deprivation / 6.3:
Preface
List of Abbreviations
List of Symbols
82.
図書
John F. Watts, John Wolstenholme
出版情報:
Chichester : Wiley, c2003 x, 212 p. ; 23 cm
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Preface
Acknowledgements
Electron Spectroscopy: Some Basic Concepts / 1:
Electron Spectrometer Design
The Electron Spectrum: Qualitative and Quantitative Interpretation
Compositional Depth Profiling / 1.1:
Applications of Electron Spectroscopy in Materials Science
Analysis of Surfaces
Comparison of XPS and AES with Other Analytical Techniques
Glossary / 1.2:
Bibliography
Notation
Auger Electron Energies / Appendix 1:
Spectroscopists' notation / Appendix 2:
Table of Binding Energies Accessible with AIK& Radiation
Index / 1.2.2:
X-ray notation
X-ray Photoelectron Spectroscopy (XPS) / 1.3:
Auger Electron Spectroscopy (AES) / 1.4:
Scanning Auger Microscopy (SAM) / 1.5:
The Depth of Analysis in Electron Spectroscopy / 1.6:
Comparison of XPS and AES/SAM / 1.7:
The Availability of Surface Analytical Equipment / 1.8:
The Vacuum System / 2:
The Sample / 2.2:
X-ray Sources for XPS / 2.3:
The twin anode X-ray source / 2.3.1:
X-ray monochromators / 2.3.2:
Charge compensation / 2.3.3:
The Electron Gun for AES / 2.4:
Electron sources / 2.4.1:
Analysers for Electron Spectroscopy / 2.5:
The cylindrical mirror analyser / 2.5.1:
The hemispherical sector analyser / 2.5.2:
Detectors / 2.6:
Channel electron multipliers / 2.6.1:
Channel plates / 2.6.2:
Small Area XPS / 2.7:
Lens-defined small area XPS / 2.7.1:
Source-defined small area analysis / 2.7.2:
XPS Imaging and Mapping / 2.8:
Serial acquisition / 2.8.1:
Parallel acquisition / 2.8.2:
Lateral Resolution in Small Area XPS / 2.9:
Angle Resolved XPS / 2.10:
Qualitative Analysis / 3:
Unwanted features in electron spectra / 3.1.1:
Data acquisition / 3.1.2:
Chemical State Information / 3.2:
X-ray photoelectron spectroscopy / 3.2.1:
Electron induced Auger electron spectroscopy / 3.2.2:
The Auger parameter / 3.2.3:
Chemical state plots / 3.2.4:
Shake-up satellites / 3.2.5:
Multiplet splitting / 3.2.6:
Plasmons / 3.2.7:
Quantitative Analysis / 3.3:
Factors affecting the quantification of electron spectra / 3.3.1:
Quantification in XPS / 3.3.2:
Quantification in AES / 3.3.3:
Compositional Depth Profilin / 4:
Non-destructive Depth Profiling Methods / 4.1:
Angle resolved electron spectroscopy / 4.1.1:
Elastic scattering / 4.1.1.1:
Compositional depth profiles by ARXPS / 4.1.1.2:
Recent advances in ARXPS / 4.1.1.3:
Variation of analysis depth with electron kinetic energy / 4.1.2:
Depth Profiling by Erosion with Noble Gas Ions / 4.2:
The sputtering process / 4.2.1:
Experimental method / 4.2.2:
Sputter yield and etch rate / 4.2.3:
Factors affecting the etch rate / 4.2.4:
Factors affecting the depth resolution / 4.2.5:
Calibration / 4.2.6:
Ion gun design / 4.2.7:
Mechanical Sectioning / 4.3:
Angle lapping / 4.3.1:
Ball cratering / 4.3.2:
Conclusions / 4.4:
Introduction / 5:
Metallurgy / 5.2:
Grain-boundary segregation / 5.2.1:
Electronic structure of metallic alloys / 5.2.2:
Surface engineering / 5.2.3:
Corrosion Science / 5.3:
Ceramics and Catalysis / 5.4:
Microelectronics and Semiconductor Materials / 5.5:
Mapping semiconductor devices using AES / 5.5.1:
Depth profiling of semiconductor materials / 5.5.2:
Ultra-thin layers studied by ARXPS / 5.5.3:
Polymeric Materials / 5.6:
Adhesion Science / 5.7:
X-ray Analysis in the Electron Microscope / 6:
Electron Analysis in the Electron Microscope / 6.2:
Mass Spectrometry for Surface Analysis / 6.3:
Ion Scattering / 6.4:
Concluding Remarks / 6.5:
Appendices
Table of Binding Energies Accessible with AlKalpha Radiation
Preface
Acknowledgements
Electron Spectroscopy: Some Basic Concepts / 1:
83.
図書
edited by Xin-bo Zhang
出版情報:
Weinheim : Wiley-VCH, c2018 xiv, 417 p. ; 25 cm
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Preface
Introduction to Metal-Air Batteries: Theory and Basic Principles / Zhiwen Chang and Xin-bo Zhang1:
Li-O2 Battery / 1.1:
Sodium-O2 Battery / 1.2:
References
Stabilization of Lithium-Metal Anode in Rechargeable Lithium-Air Batteries / Bin Liu and Wu Xu and Ji-Guang Zhang2:
Introduction / 2.1:
Recent Progresses in Li Metal Protection for Li-O2 Batteries / 2.2:
Design of Composite Protective Layers / 2.2.1:
New Insights on the Use of Electrolyte / 2.2.2:
Functional Separators / 2.2.3:
Solid-State Electrolytes / 2.2.4:
Alternative Anodes / 2.2.5:
Challenges and Perspectives / 2.3:
Acknowledgment
Li-Air Batteries: Discharge Products / Xuanxuan Bi and Rongyue Wang and Jun Lu3:
Discharge Products in Aprotic Li-O2 Batteries / 3.1:
Peroxide-based Li-O2 Batteries / 3.2.1:
Electrochemical Reactions / 3.2.1.1:
Crystalline and Electronic Band Structure of Li2 O2 / 3.2.1.2:
Reaction Mechanism and the Coexistence of Li2 O2 and LiO2 / 3.2.1.3:
Super oxide-based Li-02 Batteries / 3.2.2:
Problems and Challenges in Aprotic Li-O2 Batteries / 3.2.3:
Decomposition of the Electrolyte / 3.2.3.1:
Degradation of the Carbon Cathode / 3.2.3.2:
Discharge Products in Li-Air Batteries / 3.3:
Challenges to Exchanging O2 to Air / 3.3.1:
Effect of Water on Discharge Products / 3.3.2:
Effect of Small Amount of Water / 3.3.2.1:
Aqueous Li-O2 Batteries / 3.3.2.2:
Effect of C02 on Discharge Products / 3.3.3:
Current Li-Air Batteries and Perspectives / 3.3.4:
Electrolytes for Li-O2 Batteries / Alex R. Neale and Peter Goodrich and Christopher Hardacre and Johan Jacquemin4:
General Li-O2 Battery Electrolyte Requirements and Considerations / 4.1:
Electrolyte Salts / 4.1.1:
Ethers and Glymes / 4.1.2:
Dimethyl Sulfoxide (DMSO) and Sulfones / 4.1.3:
Nitriles / 4.1.4:
Amides / 4.1.5:
Ionic Liquids / 4.1.6:
Future Outlook / 4.1.7:
Li-Oxygen Battery: Parasitic Reactions / Xiahui Yao and Qi Dong and Qingmei Cheng and Dunwei Wang5:
The Desired and Parasitic Chemical Reactions for Li-Oxygen Batteries / 5.1:
Parasitic Reactions of the Electrolyte / 5.2:
Nucleophilic Attack / 5.2.1:
Autoxidation Reaction / 5.2.2:
Acid-Base Reaction / 5.2.3:
Proton-mediated Parasitic Reaction / 5.2.4:
Additional Parasitic Chemical Reactions of the Electrolyte: Reduction Reaction / 5.2.5:
Parasitic Reactions at the Cathode / 5.3:
The Corrosion of Carbon in the Discharge Process / 5.3.1:
The Corrosion of Carbon in the Recharge Process / 5.3.2:
Catalyst-induced Parasitic Chemical Reactions / 5.3.3:
Alternative Cathode Materials and Corresponding Parasitic Chemistries / 5.3.4:
Additives and Binders / 5.3.5:
Contaminations / 5.3.6:
Parasitic Reactions on the Anode / 5.4:
Corrosion of the Li Metal / 5.4.1:
SEI in the Oxygenated Atmosphere / 5.4.2:
Alternative Anodes and Associated Parasitic Chemistries / 5.4.3:
New Opportunities from the Parasitic Reactions / 5.5:
Summary and Outlook / 5.6:
Li-Air Battery: Electrocatalysts / 6:
Types of ELectrocatalyst / 6.1:
Carbonaceous Materials / 6.2.1:
Commercial Carbon Powders / 6.2.1.1:
Carbon Nanotubes (CNTs) / 6.2.1.2:
Graphene / 6.2.1.3:
Doped Carbonaceous Material / 6.2.1.4:
Noble Metal and Metal Oxides / 6.2.2:
Transition Metal Oxides / 6.2.3:
Perovskite Catalyst / 6.2.3.1:
Redox Mediator / 6.2.3.2:
Research of Catalyst / 6.3:
Reaction Mechanism / 6.4:
Summary / 6.5:
Lithium-Air Battery Mediator / Zhuojion Liang and Guangtao Cong and Yu Wang and Yi-Chun Lu7:
Redox Mediators in Lithium Batteries / 7.1:
Redox Mediators in Li-Air Batteries / 7.1.1:
Redox Mediators in Li-ion and Lithium-flow Batteries / 7.1.2:
Overcharge Protection in Li-ion Batteries / 7.1.2.1:
Redox Targeting Reactions in Lithium-flow Batteries / 7.1.2.2:
Selection Criteria and Evaluation of Redox Mediators for Li-O2 Batteries / 7.2:
Redox Potential / 7.2.1:
Stability / 7.2.2:
Reaction Kinetics and Mass Transport Properties / 7.2.3:
Catalytic Shuttle vs Parasitic Shuttle / 7.2.4:
Charge Mediators / 7.3:
Lil (Lithium Iodide) / 7.3.1:
LiBr (Lithium Bromide) / 7.3.2:
Nitroxides: TEMPO (2,2,6,6-TetramethyIpiperidinyioxyl) and Others / 7.3.3:
TTF (Tetrathiafulvalene) / 7.3.4:
Tris[4-(diethylamino)phenyl]amine (TDPA) / 7.3.5:
Comparison of the Reported Charge Mediators / 7.3.6:
Discharge Mediator / 7.4:
Iron Phthalocyanine (FePc) / 7.4.1:
2,5-Di-tert'butyl-l,4-benzoquinone (DBBQ) / 7.4.2:
Conclusion and Perspective / 7.5:
Spatiotemporal Operando X-ray Diffraction Study on Li-Air Battery / Di-Jia Liu and Jiang-Lan Shui8:
Microfocused X-ray Diffraction (¿-XRD) and Li-O2 Cell Experimental Setup / 8.1:
Study on Anode: Limited Reversibility of Lithium in Rechargeable LAB / 8.2:
Study on Separator: Impact of Precipitates to LAB Performance / 8.3:
Study on Cathode: Spatiotemporal Growth of Li2 O2 During Redox Reaction / 8.4:
Metal-Air Battery: In Situ Spectroelectrochemical Techniquesx / lain M. Aldous and Laurence J. Hardwick and Richard J. Nichols and J. Padmanabhan Vivek9:
Raman Spectroscopy / 9.1:
In Situ Raman Spectroscopy for Metal-O2 Batteries / 9.1.1:
Background Theory / 9.1.2:
Practical Considerations / 9.1.3:
Electrochemical Roughening / 9.1.3.1:
Addressing Inhomogeneous SERS Enhancement / 9.1.3.2:
In Situ Raman Setup / 9.1.4:
Determination of Oxygen Reduction and Evolution Reaction Mechanisms Within Metal-O2 Batteries / 9.1.5:
Infrared Spectroscopy / 9.2:
Background / 9.2.1:
IR Studies of Electrochemical Interfaces / 9.2.2:
Infrared Spectroscopy for Metal-O2 Battery Studies / 9.2.3:
UV/Visible Spectroscopic Studies / 9.3:
UV/Vis Spectroscopy / 9.3.1:
UV/Vis Spectroscopy for Metal-O2 Battery Studies / 9.3.2:
Electron Spin Resonance / 9.4:
Cell Setup / 9.4.1:
Deployment of Electrochemical ESR in Battery Research / 9.4.2:
Zn-Air Batteries / Tong wen Yu and Rui Cai and Zhongwei Chen9.5:
Zinc Electrode / 10.1:
Electrolyte / 10.3:
Separator / 10.4:
Air Electrode / 10.5:
Structure of Air Electrode / 10.5.1:
Oxygen Reduction Reaction / 10.5.2:
Oxygen Evolution Reaction / 10.5.3:
Electrocatalyst / 10.5.4:
Noble Metals and Alloys / 10.5.4.1:
Inorganic-Organic Hybrid Materials / 10.5.4.2:
Meta-free Materials / 10.5.4.4:
Conclusions and Outlook / 10.6:
Experimental and Computational investigation of Nonaqueous Mg/O2 Batteries / Jeffrey G. Smith and Güiin Vardar and Charles W. Monroe and Donald J. Siegel11:
Experimental Studies of Magnesium/Air Batteries and Electrolytes / 11.1:
Ionic Liquids as Candidate Electrolytes for Mg/O2 Batteries / 11.2.1:
Modified Grignard Electrolytes for Mg/O2 Batteries / 11.2.2:
All-inorganic Electrolytes for Mg/O2 Batteries / 11.2.3:
Electrochemical Impedance Spectroscopy / 11.2.4:
Computational Studies of Mg/O2 Batteries / 11.3:
Calculation of Thermodynamic Overpotentials / 11.3.1:
Charge Transport in Mg/O2 Discharge Products / 11.3.2:
Concluding Remarks / 11.4:
Novel Methodologies to Model Charge Transport In Metal-Air Batteries / Nicoiai Rask Mathiesen and Marko Melander and Mikael Kuisma and Pablo García-Fernandez and Juan Maria García Lastra12:
Modeling Electrochemical Systems with GPAW / 12.1:
Density Functional Theory / 12.2.1:
Conductivity from DFT Data / 12.2.2:
The GPAW Code / 12.2.3:
Charge Transfer Rates with Constrained DFT / 12.2.4:
Marcus Theory of Charge Transfer / 12.2.4.1:
Constrained DFT / 12.2.4.2:
Polaronic Charge Transport at the Cathode / 12.2.4.3:
Electrochemistry at Solid-Liquid Interfaces / 12.2.5:
Modeling the Electrochemical Interface / 12.2.5.1:
Implicit Solvation at the Electrochemical Interface / 12.2.5.2:
Generalized Poisson-Boltzmann Equation for the Electric Double Layer / 12.2.5.3:
A Electrode Potential Within the Poisson-Boltzmann Model
Calculations at Constant Electrode Potential / 12.2.6:
The Need for a Constant Potential Presentation / 12.2.6.1:
Grand Canonical Ensemble for Electrons / 12.2.6.2:
Fictitious Charge Dynamics / 12.2.6.3:
Model in Practice / 12.2.6.4:
Conclusions / 12.2.7:
Second Principles for Material Modeling / 12.3:
The Energy in SP-DET / 12.3.1:
The Lattice Term (E(0) ) / 12.3.2:
Electronic Degrees of Freedom / 12.3.3:
Model Construction / 12.3.4:
Perspectives on SP-DFT / 12.3.5:
Acknowledgments
Flexible Metal-Air Batteries / Huisheng Peng and Yifan Xu and Jian Pan and Yang Zhao and Lie Wang and Xiang Shi13:
Flexible Electrolytes / 13.1:
Aqueous Electrolytes / 13.2.1:
PAA-based Gel Polymer Electrolyte / 13.2.1.1:
PEO-based Gel Polymer Electrolyte / 13.2.1.2:
PVA-based Gel Polymer Electrolyte / 13.2.1.3:
Nonaqueous Electrolytes / 13.2.2:
PEO-based Polymer Electrolyte / 13.2.2.1:
PVDF-HFP-based Polymer Electrolyte / 13.2.2.2:
Ionic Liquid Electrolyte / 13.2.2.3:
Flexible Anodes / 13.3:
Flexible Cathodes / 13.4:
Modified Stainless Steel Mesh / 13.4.1:
Modified Carbon Textile / 13.4.2:
Carbon Nanotube / 13.4.3:
Graphene-based Cathode / 13.4.4:
Other Composite Electrode / 13.4.5:
Prototype Devices / 13.5:
Sandwich Structure / 13.5.1:
Fiber Structure / 13.5.2:
Perspectives on the Development of Metal-Air Batteries / 13.6:
Lithium Anode / 14.1:
Cathode / 14.1.2:
The Reaction Mechanisms / 14.1.4:
The Development of Solid-state Li-O2 Battery / 14.1.5:
The Development of Flexible Li-O2 Battery / 14.1.6:
Na-O2 Battery / 14.2:
Zn-air Battery / 14.3:
Index
Preface
Introduction to Metal-Air Batteries: Theory and Basic Principles / Zhiwen Chang and Xin-bo Zhang1:
Li-O2 Battery / 1.1:
84.
図書
Kenneth A. Small and Erik T. Verhoef
出版情報:
London : Routledge, 2007 xvi, 276 p. ; 25 cm
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List of tables
List of figures
Acknowledgments
Selected symbols and abbreviations
Introduction / 1:
Travel demand / 2:
Aggregate tabulations and models / 2.1:
Aggregate demand models / 2.1.1:
Cross-sectional studies of metropolitan areas / 2.1.2:
Cross-sectional studies within a metropolitan area / 2.1.3:
Studies using time-series data / 2.1.4:
Summary of key results of aggregate studies / 2.1.5:
Transportation and land use / 2.1.6:
Disaggregate models: methods / 2.2:
Basic discrete-choice models / 2.2.1:
Estimation / 2.2.2:
Interpreting coefficient estimates / 2.2.3:
Data / 2.2.4:
Randomness, scale of utility, and measures of benefit / 2.2.5:
Aggregation and forecasting / 2.2.6:
Specification / 2.2.7:
Ordered and rank-ordered models / 2.2.8:
Disaggregate models: examples / 2.3:
Mode choice / 2.3.1:
Trip-scheduling choice / 2.3.2:
Choice of free or express lanes / 2.3.3:
Advanced discrete-choice modeling / 2.4:
Generalized extreme value models / 2.4.1:
Combined discrete and continuous choice / 2.4.2:
Disaggregate panel data / 2.4.3:
Random parameters and mixed logit / 2.4.4:
Endogenous prices / 2.4.5:
Activity patterns and trip chaining / 2.5:
Value of time and reliability / 2.6:
Value of time: basic theory / 2.6.1:
Empirical specifications / 2.6.2:
Extensions / 2.6.3:
Value of reliability: theory / 2.6.4:
Empirical results / 2.6.5:
Conclusions / 2.7:
Costs / 3:
The nature of cost functions / 3.1:
Cost functions for public transit / 3.2:
Accounting cost studies / 3.2.1:
Engineering cost studies / 3.2.2:
Statistical cost studies / 3.2.3:
Cost functions including user inputs / 3.2.4:
Highway travel: congestion technology / 3.3:
Fundamentals of congestion / 3.3.1:
Empirical speed-flow relationships / 3.3.2:
Dynamic congestion models / 3.3.3:
Congestion modeling: a conclusion / 3.3.4:
Highway travel: short-run cost functions and equilibrium / 3.4:
Stationary-state congestion on a homogeneous road / 3.4.1:
Time-averaged models / 3.4.2:
Dynamic models with endogenous scheduling / 3.4.3:
Network equilibrium / 3.4.4:
Parking search / 3.4.5:
Empirical evidence on short-run variable costs / 3.4.6:
Highway travel: long-run cost functions / 3.5:
Analytic long-run cost functions / 3.5.1:
The role of information technology / 3.5.2:
Empirical evidence on capital costs / 3.5.3:
Is highway travel subsidized? / 3.5.4:
Intermodal cost comparisons / 3.6:
Pricing / 3.7:
First-best congestion pricing of highways / 4.1:
Static congestion / 4.1.1:
Dynamic congestion / 4.1.2:
Second-best pricing / 4.2:
Network aspects / 4.2.1:
Time-of-day aspects / 4.2.2:
User heterogeneity / 4.2.3:
Stochastic congestion and information / 4.2.4:
Interactions with other distorted markets / 4.2.5:
Second-best pricing: a conclusion / 4.2.6:
Congestion pricing in practice / 4.3:
Singapore / 4.3.1:
Norwegian toll rings / 4.3.2:
Value pricing in the US / 4.3.3:
London congestion charging / 4.3.4:
Other applications / 4.3.5:
Technology of road pricing / 4.3.6:
Pricing of parking / 4.4:
Pricing of public transit / 4.5:
Fare level / 4.5.1:
Fare structure / 4.5.2:
Incentive effects of subsidies / 4.5.3:
Political considerations / 4.5.4:
Investment / 4.6:
Capacity choice for highways / 5.1:
Basic results: capacity choice with first-best pricing and static congestion / 5.1.1:
Self-financing in more complex settings / 5.1.2:
Second-best highway capacity / 5.1.3:
Naive investment rules / 5.1.4:
Cost-benefit analysis / 5.2:
Willingness to pay / 5.2.1:
Demand and cost forecasts / 5.2.2:
Discounting future costs and benefits / 5.2.3:
Shifting of costs and benefits / 5.2.4:
External benefits and network effects / 5.2.5:
Conclusion: the use and misuse of cost-benefit analysis / 5.2.6:
Industrial organization of transportation providers / 5.3:
Private highways / 6.1:
Single road with static congestion / 6.1.1:
Single road with dynamic congestion / 6.1.2:
Heterogeneous users / 6.1.3:
Private toll lanes: the two-route problem revisited / 6.1.4:
Competition in networks / 6.1.5:
Regulation and franchising of private roads / 6.2:
Privately provided transit services / 6.3:
Forms of privatization / 6.3.1:
Market structure and competitive practices / 6.3.2:
Efficiency of public and private providers / 6.3.3:
Experience with privatization and deregulation / 6.3.4:
Paratransit / 6.3.5:
Conventional taxi service / 6.3.6:
Conclusion / 6.4:
Emerging themes / 7.1:
Implications for transportation research / 7.2:
Notes
References
Index
List of tables
List of figures
Acknowledgments
85.
図書
edited by Tito Trindade, Ana L. Daniel da Silva
出版情報:
Singapore : Pan Stanford Publishing, c2011 xxii, 289, 4 p. ; 24 cm
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List of Figures
List of Tables
Preface
From Nanoparticles to Nanocomposites: A Brief Overview / 1:
Nanoscience and Nanotechnology: An introduction / 1.1:
Nanoparticles' Diversity / 1.2:
Quantum dots / 1.2.1:
Iron oxides / 1.2.2:
Metal nanoparticles / 1.2.3:
Surface Modification of Nanoparticles / 1.3:
Ligand exchange reactions / 1.3.1:
Inorganic nanocoating / 1.3.2:
Encapsulation in polymers / 1.3.3:
Designing Biointerfaces over Nanoparticles / 1.4:
Challenges for the Future... Nanosafety for Today / 1.5:
Polymers for Biomedical Applications: Chemical Modification and Biofunctionalization / 2:
Drug Delivery Systems / 2.1:
Hydrogels / 2.2:
Application of hydrogels / 2.2.1:
Types of hydrogels / 2.2.2:
Bioadhesives / 2.3:
Surface Modification / 2.4:
Surface modification by ultra-violet radiation / 2.4.1:
Plasma treatment / 2.4.2:
Plasma generation / 2.4.2.1:
Plasma polymerization and surface modification of polymers / 2.4.2.2:
Concluding Remarks / 2.5:
Nanocapsules as Carriers for the Transport and Targeted Delivery of Bioactive Molecules / 3:
Introduction / 3.1:
Polymeric Nanocapsules: Production and Characterization / 3.2:
Nanocapsules made of synthetic polymers / 3.2.1:
Polyacrylate nanocapsules / 3.2.1.1:
Polyester nanocapsules / 3.2.1.2:
Nanocapsules made of natural polymers / 3.2.2:
Lipid nanocapsules / 3.2.3:
Therapeutical Applications of Nanocapsules / 3.3:
Nanocapsules for oral drug delivery / 3.3.1:
Nanocapsules for oral peptide delivery / 3.3.1.1:
Nanocapsules for oral delivery of lipophilic low molecular weight drugs / 3.3.1.2:
Nanocapsules as nasal drug carriers / 3.3.2:
Nanocapsules as ocular drug carriers / 3.3.3:
Nanocapsules in cancer therapy / 3.3.4:
Nanocapsules as carriers for gene therapy / 3.3.5:
Conclusions / 3.4:
Inorganic Nanoparticles Biofunctionalization / 4:
Bioeonjugation of Nanoparticles / 4.1:
Nanoparticles and Their Surface Properties / 4.2:
Surface capping of nanoparticles / 4.2.1:
Semiconductor quantum dots and metallic nanoparticles / 4.2.2:
Silica nanoparticles and silica encapsulation / 4.2.3:
Attachment Schemes / 4.3:
Covalent attachment / 4.3.1:
Non-covalent attachment / 4.3.2:
Affinity binding / 4.3.3:
Specific Cases / 4.4:
Proteins / 4.4.1:
DNA / 4.4.2:
Avidin / 4.4.3:
Phospholipid encapsulation and functionalization / 4.4.4:
Applications / 4.5:
Cellular imaging / 4.5.1:
Drug delivery / 4.5.2:
Bioluminescence resonance energy transfer / 4.5.3:
Hyperthermia / 4.5.4:
Conclusion / 4.6:
Silica-Based Materials: Bioprocesses and Nanocomposites / 5:
Natural Silica Nanocomposites / 5.1:
Diatom biosilica / 5.1.1:
Sponge biosilica / 5.1.3:
(Bio)-technological applications of biosilica / 5.1.4:
Biomimetic Silica Nanocomposites / 5.2:
Silica nanocomposites based on natural templates / 5.2.1:
Silica nanocomposites based on model templates / 5.2.3:
Synthetic peptides / 5.2.3.1:
Synthetic polyamines / 5.2.3.2:
Biological templates / 5.2.3.3:
Biomimetism: How far can we go? / 5.2.4:
Bio-Inspired Silica Nanocomposites / 5.3:
Biotechnological and medical applications / 5.3.1:
Perspectives / 5.3.3:
Synthetic Strategies for Polymer-Based Nanocomposite Particles / 6:
Surfaces and Interfaces: Chemical Modification of Nanoparticles / 6.1:
In situ Synthetic Strategies for Polymer-Based Colloidal Nanocomposites / 6.3:
In situ preparation of the fillers / 6.3.1:
Sol-gel methods / 6.3.1.1:
In situ polymerization of the matrix / 6.3.2:
Organic solvent-based methods: Dispersion polymerization / 6.3.2.1:
Water-based methods: Emulsion and miniemulsion polymerization / 6.3.2.2:
Controlled polymerization: Surface initiated polymerization(SIP) / 6.3.3:
Atom Transfer Radical Polymerization Atrp / 6.3.3.1:
Reversible Addition Fragmentation chain transfer (Raft) polymerization / 6.3.3.2:
Combined controlled polymerization mechanisms / 6.3.3.3:
Functionalization of Polymer-Based Nanocomposites for Bio-Applications / 6.4:
Final Remarks / 6.5:
Synthesis of Nanocomposite Particles Using Supercritical Fluids: A Bridge with Bio-applications / 7:
Supercritical Fluids: Definition and Current use in, Bio-Applications / 7.1:
Definition / 7.2.1:
Scps in biomedical applications / 7.2.2:
Development of drug delivery systems / 7.2.2.1:
scC02 for purification and sterilization / 7.2.2.2:
Can Scfs be Used to Introduce Inorganic NPs into Polymers? / 7.3:
Formation of hybrid organic-inorganic NPs in Scps(route 1) / 7.3.1:
Encapsulation of inorganic NPs into a polymer shell (route 2) / 7.3.2:
Polymer swelling and in situ growth of inorganic NPs (route 3) / 7.3.3:
Polymer swelling by scC02 / 7.3.3.1:
Chemical transformation of impregnated metal precursor / 7.3.3.2:
Biocomposites Containing Magnetic Nanoparticles / 7.4:
Magnetic Properties / 8.1:
Magnetism at nanoscale level: Concepts and main phenomena / 8.2.1:
Basic concepts / 8.2.1.1:
Systems with interactions between magnetic centers / 8.2.1.2:
Superparamagnetism / 8.2.1.3:
Magnetism concepts subjacent to bio-applicatons / 8.2.2:
Magnetic separation and drug delivery / 8.2.2.1:
Magnetic resonance imaging (Mri) / 8.2.2.2:
Magnetic hyperthermia / 8.2.2.3:
Magnetic Nanoparticles for Bio-Applications / 8.3:
Iron oxide nanoparticles / 8.3.1:
Metallic nanoparticles / 8.3.2:
Metal alloy nanoparticles / 8.3.3:
Bimagnetic nanoparticles / 8.3.4:
Strategies of Synthesis of Magnetic Biocomposite Nanoparticles / 8.4:
In situ formation of magnetic nanoparticles / 8.4.1:
Other magnetic nanoparticles / 8.4.1.1:
Encapsulation of magnetic nanoparticles within biopolymers / 8.4.2:
Conclusions and Future Outlook / 8.5:
Multifunctional Nanoeomposite Particles for Biomedical Applications / 9:
Types of Multifunctional Magnetic-Fluorescent Nanocomposites / 9.1:
Main Approaches to the Preparation of Multifunctional Magnetic-Fluorescent Nanocomposites / 9.3:
Silica coated magnetic-fluorescent nanoparticles / 9.3.1:
Organic polymer coated magnetic cores treated with fluorescent entities / 9.3.2:
Ionic assemblies of magnetic cores and fluorescent entities / 9.3.3:
Fluoreseently-labeled lipid coated magnetic nanoparticles / 9.3.4:
Magnetic core directly linked to fluorescent entity via a molecular spacer / 9.3.5:
Magnetic cores coated by fluorescent semiconducting shells / 9.3.6:
Magnetically-doped Qds / 9.3.7:
Magnetic nanoparticles and Qds embedded within a polymer or silica matrix / 9.3.8:
Biomedical Applications / 9.4:
Bio-imaging probes / 9.4.1:
Cell tracking, sorting and bioseparation / 9.4.2:
Applications in nanomedicine / 9.4.3:
Bio-Applications of Functionalized Magnetic Nanoparticles and Their Nanocomposites / 9.5:
Fundaments of Nanomagnetism / 10.1:
Single-domain particles / 10.2.1:
Magnetic anisotropy energy / 10.2.2:
Fundaments of Colloidal Stability / 10.2.3:
Bio-Applications of Magnetic Nanoparticles / 10.4:
Magnetic separation / 10.4.1:
Nuclear magnetic resonance imaging (Mri) / 10.4.2:
Contrast agents based on superparamagnetic nanomagnets / 10.4.3.1:
Magnetobiosensors / 10.4.4:
Magnetobiosensors based on magnetorelaxometry / 10.4.4.1:
Magnetobiosensors based on magnetoresistance / 10.4.4.2:
Magnetosensors based on Hall effect / 10.4.4.3:
Magnetoplasmonics / 10.4.4.4:
Summary and Outlook / 10.4.5:
Anti-Microbial Polymer Nanocomposites / 11:
Packaging / 11.1:
Textiles / 11.1.2:
Coatings / 11.1.3:
Antimicrobial coatings / 11.1.3.1:
Medicine, pathology and surgical implants/ biomedical coatings / 11.1.3.2:
Anti-Microbial Polymer-Based Nanocomposites / 11.2:
Mechanisms of Antibacterial Action / 11.3:
Detection of microbes / 11.3.1:
Control of microbial growth / 11.3.2:
Environmental and Health Concerns / 11.4:
Biosensing Applications Using Nanoparticles / 12:
Biosensors: A Definition / 12.1:
Uses of Gold Nanoparticles / 12.2:
Tailoring biointerfaces over gold nanoparticles / 12.2.1:
Biosensing applications of gold nanoparticles / 12.2.2:
Crosslinking-based biosensing / 12.2.2.1:
Non-crosslmking-based biosensing / 12.2.2.2:
Semiconductor Quantum Dots / 12.3:
Properties of quantum dots / 12.3.1:
Biosensing with quantum dots / 12.3.2:
Immunosensing / 12.3.2.1:
Dna assays / 12.3.2.2:
Resonance energy transfer-based assays / 12.3.2.3:
Outlook Remarks / 12.4:
Index
List of Figures
List of Tables
Preface
86.
図書
Daniel Minoli
出版情報:
Boca Raton, Fla. : CRC Press, c2011 xiv, 302 p., [24] p. of plates ; 24 cm
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Preface
The Author
Introduction / Chapter 1:
Overview / 1.1:
Background and Opportunities / 1.2:
Course of Investigation / 1.3:
References
Bibliography
Some Basic Fundamentals of Visual Science / Chapter 2:
Stereo Vision Concepts / 2.1:
Stereoscopy / 2.1.1:
Binocular Depth Perception and Convergence / 2.1.2:
Cyclopean Image / 2.1.3:
Accommodation / 2.1.4:
Parallax Concepts / 2.2:
Parallax / 2.2.1:
Parallax Barrier and Lenticular Lenses / 2.2.2:
Other Concepts / 2.3:
Polarization / 2.3.1:
Chromostereopsis / 2.3.2:
3D Imaging / 2.3.3:
Occlusion and Scene Reconstruction / 2.3.4:
Conclusion / 2.4:
Analytical 3D Aspects of the Human Visual System / Appendix 2A:
Theory of Stereo Reproduction / 2A.1:
Analytics / 2A.2:
Depth Perception / 2A.2.1:
Geometry of Stereoscopic 3D Displays / 2A.2.2:
Geometry of Stereo Capturing / 2A.2.3:
Stereoscopic 3D Distortions / 2A.2.4:
Workflow of Conventional Stereo Production / 2A.3:
Basic Rules and Production Grammar / 2A.3.1:
Example / 2A.3.2:
Application of Visual Science Fundamentals to 3DTV / Chapter 3:
Application of the Science to 3D Projection/3DTV / 3.1:
Common Video Treatment Approaches / 3.1.1:
Projections Methods for Presenting Stereopairs / 3.1.2:
Polarization, Synchronization, and Colorimetrics / 3.1.3:
Autostereoscopic Viewing / 3.2:
Lenticular Lenses / 3.2.1:
Parallax Barriers / 3.2.2:
Other Longer-Term Systems / 3.3:
Multi-Viewpoint 3D Systems / 3.3.1:
Integral Imaging/Holoscopic Imaging / 3.3.2:
Holographic Approaches / 3.3.3:
Volumetric Displays/Hybrid Holographic / 3.3.4:
Viewer Physiological Issues with 3D Content / 3.4:
The Accommodation Problem / 3.4.1:
Infinity Separation / 3.4.2:
Conclusion and Requirements of Future 3DTV / 3.5:
Basic 3DTV Approaches for Content Capture and Mastering / Chapter 4:
General Capture, Mastering, and Distribution Process / 4.1:
3D Capture, Mastering, and Distribution Process / 4.2:
Content Acquisition / 4.2.1:
3D Mastering / 4.2.2:
Spatial Compression / 4.2.2.1:
Temporal Multiplexing / 4.2.2.2:
2D in Conjunction with Metadata (2D+M) / 4.2.2.3:
Color Encoding / 4.2.2.4:
Overview of Network Transport Approaches / 4.3:
MPEG Standardization Efforts / 4.4:
Additional Details on 3D Video Formats / Appendix 4A:
Conventional Stereo Video (CSV) / 4A.1:
Video plus Depth (V+D) / 4A.2:
Multiview Video plus Depth (MV+D) / 4A.3:
Layered Depth Video (LDV) / 4A.4:
3D Basic 3DTV Approaches and Technologies for In-Home Display of Content / Chapter 5:
Connecting the In-Home Source to the Display / 5.1:
3DTV Display Technology / 5.2:
Commercial Displays Based on Projection / 5.2.1:
Commercial Displays Based on LCD and PDP Technologies / 5.2.2:
LCD 3DTV Polarized Display / 5.2.3:
Summary of 3DTV Polarized Displays / 5.2.4:
Glasses Accessories / 5.2.5:
Other Display Technologies / 5.3:
Autostereoscopic Systems with Parallax Support in the Vertical and Horizontal Axes / 5.3.1:
Autostereoscopic Systems for PDAs / 5.3.2:
Primer on Cables/Connectivity for High-End Video / 5.4:
In-Home Connectivity Using Cables / 5A.1:
Digital Visual Interface (DVI) / 5A.1.1:
High-Definition Multimedia Interface" (HDMI") / 5A.1.2:
DisplayPort / 5A.1.3:
In-Home Connectivity Using Wireless Technology / 5A.2:
Wireless Gigabit Alliance / 5A.2.1:
WirelessHD / 5A.2.2:
Other Wireless / 5A.2.3:
3DTV Advocacy and System-Level Research Initiatives / Chapter 6:
3D Consortium (3DC) / 6.1:
3D@Home Consortium / 6.2:
3D Media Cluster / 6.3:
3DTV / 6.4:
Challenges and Players in the 3DTV Universe / 6.5:
European Information Society Technologies (IST) Project "Advanced Three-Dimensional Television System Technologies" (ATTEST) / 6.5.1:
3D Content Creation / 6.5.1.1:
3D Video Coding / 6.5.1.2:
Transmission / 6.5.1.3:
Virtual-View Generation and 3D Display / 6.5.1.4:
3DPhone / 6.5.2:
Mobile3DTV / 6.5.3:
Real3D / 6.5.4:
HELIUM3D (High Efficiency Laser Based Multi User Multi Modal 3D Display) / 6.5.5:
The MultiUser 3D Television Display (MUTED) / 6.5.6:
3D4YOU / 6.5.7:
3DPresence / 6.5.8:
Audio-Visual Content Search and Retrieval in a Distributed P2P Repository (Victory) / 6.5.9:
Victory in Automotive Industry / 6.5.9.1:
Victory in Game Industry / 6.5.9.2:
2020 3D Media / 6.5.10:
i3DPost / 6.5.11:
Glossary
Index
Preface
The Author
Introduction / Chapter 1:
87.
図書
A. Goldmann ... [et al.] ; editor, A. Goldmann
目次情報:
続きを見る
Introductory material
Introduction / A. Goldmann1:
Historical remarks / 1.1:
Arrangement of data / 1.2:
Definition of quantities / 1.3:
Frequently used symbols / 1.4:
List of abbreviations / 1.5:
References to other volumes of Landolt-Bornstein / 1.6:
References for 1 / 1.7:
Data / 2:
See Vol.23A / 2.1- 2.5:
Transition metal compounds / T. Ishii2.6:
Tables and figures / 2.6.1:
References for 2.6 / 2.6.3:
Photoelectron spectra of layered compounds / R. Manzke ; M. Skibowski2.7:
Introduction - overview / 2.7.0:
IVB-VIA compounds / 2.7.1:
Titanium dichalcogenides / 2.7.1.1:
Zirconium dichalcogenides / 2.7.1.2:
Hafnium dichalcogenides / 2.7.1.3:
VB-VIA compounds / 2.7.2:
Vanadium dichalcogenides / 2.7.2.1:
Niobium dichalcogenides / 2.7.2.2:
Tantalum dichalcogenides / 2.7.2.3:
VIB-VIA compounds / 2.7.3:
Molybdenum dichalcogenides / 2.7.3.1:
Tungsten dichalcogenides / 2.7.3.2:
IIIA-VIA compounds / 2.7.4:
GaS / 2.7.4.1:
GaSe / 2.7.4.2:
GaTe / 2.7.4.3:
InSe / 2.7.4.4:
IVA-VIA compounds / 2.7.5:
GeS / 2.7.5.1:
GeSe / 2.7.5.2:
GeTe / 2.7.5.3:
SnS / 2.7.5.4:
SnSe / 2.7.5.5:
SnTe / 2.7.5.6:
VA-VIA compounds / 2.7.5.7:
IIB-, IVA-, VA-Iodides / 2.7.6.1:
References for 2.7 / 2.7.7.1:
Actinides and some of their alloys and compounds / J.R. Naegele2.8:
Ac (Z = 89) / 2.8.1:
Th (Z = 90) / 2.8.3:
Pa (Z = 91) / 2.8.4:
U (Z = 92) / 2.8.5:
Np (Z = 93) / 2.8.6:
Pu (Z = 94) / 2.8.7:
Am (Z = 95) / 2.8.8:
Cm (Z = 96) / 2.8.9:
Bk (Z = 97) / 2.8.10:
Cf (Z = 98) / 2.8.11:
Es (Z = 99) / 2.8.12:
References for 2.8 / 2.8.13:
Introductory material
Introduction / A. Goldmann1:
Historical remarks / 1.1:
88.
図書
Sung Joon Ahn
目次情報:
続きを見る
Introduction / 1:
Curves and Surfaces in Space / 1.1:
Mathematical Description / 1.1.1:
Rigid Body Motion of Model Features in Space / 1.1.2:
Model Hierarchy / 1.1.3:
Curve and Surface Fitting / 1.2:
Applications of Curve and Surface Fitting / 1.2.1:
Algebraic Fitting Vs. Geometric Fitting / 1.2.2:
State-of-the-Art Orthogonal Distance Fitting / 1.2.3:
ISO 10360-6 and Requirements of CMM Software Tools / 1.2.4:
Least-Squares Orthogonal Distance Fitting / 2:
Moment Method for Line and Plane Fitting / 2.1:
Line Fitting / 2.1.1:
Plane Fitting / 2.1.2:
Relationship Between Line and Plane Fitting / 2.1.3:
Generalized Orthogonal Distance Fitting / 2.2:
Problem Definition / 2.2.1:
Point-to-Point Matching / 2.2.2:
Template Matching / 2.2.3:
Orthogonal Distance Fitting Algorithms / 2.3:
Distance-Based Algorithm / 2.3.1:
Coordinate-Based Algorithm / 2.3.2:
Model Fitting with Parameter Constraints / 2.3.3:
Parameter Test / 2.3.4:
Application to Circle and Sphere Fitting / 2.3.5:
Orthogonal Distance Fitting of Implicit Curves and Surfaces / 3:
Minimum Distance Point / 3.1:
Generalized Newton Method / 3.1.1:
Method of Lagrangian Multipliers / 3.1.2:
Verification of the Minimum Distance Point / 3.1.3:
Acceleration of Finding the Minimum Distance Point / 3.1.4:
Orthogonal Distance Fitting / 3.2:
Comparison of the Two Algorithms / 3.2.1:
Fitting Examples / 3.3:
Superellipse Fitting / 3.3.1:
Cone Fitting / 3.3.2:
Torus Fitting / 3.3.3:
Superellipsoid Fitting / 3.3.4:
Orthogonal Distance Fitting of Parametric Curves and Surfaces / 4:
Newton Method / 4.1:
Levenberg-MarquardtAlgorithm / 4.1.2:
Initial Values / 4.1.3:
Algorithm I (ETH) / 4.1.4:
Algorithm II (NPL, FhG) / 4.2.2:
Algorithm III (FhG) / 4.2.3:
Comparison of the Three Algorithms / 4.2.4:
Helix Fitting / 4.3:
Ellipsoid Fitting / 4.3.2:
Object Reconstruction from Unordered Point Cloud / 5:
Applications of Object Reconstruction / 5.1:
Semi-automatic Object Recognition / 5.2:
Segmentation, Outlier Elimination, and Model Fitting / 5.2.1:
Domain Volume for Measurement Points / 5.2.2:
Experimental Results with Real 3-D Measurement Points / 5.3:
3-D Point Cloud from Stripe Projection Method / 5.3.1:
3-D Point Cloud from Laser Radar / 5.3.2:
Conclusions / 6:
Summary / 6.1:
Future Work / 6.2:
References
Index
Implementation Examples / A:
Implicit 2-D Ellipse (Chap.3) / A.1:
Parametric 3-D Ellipse (Chap.4) / A.2:
CMM Software Tools Fulfilling ISO 10360-6 / B:
Curves and Surfaces Defined in ISO 10360-6 / B.1:
Competent Parameterization / B.1.1:
Role of the Mass Center / B.1.2:
Rotation Matrix / B.1.3:
Parameter Range / B.1.4:
Minimum Distance Point and FHG/XHG Matrix / B.2:
2-D Line / B.2.1:
3-D Line / B.2.2:
Plane / B.2.3:
2-D Circle / B.2.4:
3-D Circle / B.2.5:
Sphere / B.2.6:
Cylinder / B.2.7:
Cone / B.2.8:
Torus / B.2.9:
FHG Matrix of Superellipse and Superellipsoid / C:
Superellipse / C.1:
Superellipsoid / C.2:
Introduction / 1:
Curves and Surfaces in Space / 1.1:
Mathematical Description / 1.1.1:
89.
図書
Detlev Möller
目次情報:
続きを見る
Preface to the first edition
Author's preface to the third edition
Author's preface to the second edition
Prologue
List of principal symbols
Introduction / 1:
Chemistry and the climate system / 1.1:
Air and atmosphere: a multiphase and multicomponent system / 1.2:
Principles of chemistry in the climate system / 1.3:
Substances in climate system / 1.4:
Fundamentals of physics in the climate system / 2:
Meteorological basics / 2.1:
Scaling and structure of the atmosphere / 2.1.1:
Meteorological elements / 2.1.2:
Air pressure / 2.1.2.1:
Air temperature / 2.1.2.2:
Air humidity / 2.1.2.3:
Hydrometeors / 2.1.3:
Clouds / 2.1.3.1:
Fog, mist, and haze / 2.1.3.2:
Precipitation / 2.1.3.3:
Dew, frost, rime, and interception / 2.1.4:
Clirnatologtcai basics / 2.2:
Climate / 2.2.1:
Climate system / 2.2.2:
Chemical climate / 2.2.3:
Optics of the atmosphere: Radiation / 2.3:
Solar radiation / 2.3.1:
The Sun and its radiation output / 2.3.1.1:
Solar radiation transfer through the atmosphere / 2.3.1.2:
Absorption and emission of light / 2.3.2:
Absorption (Lambert-Beer law) / 2.3.2.1:
Emission (Planck's law and Stefan-Boltzmann law) / 2.3.2.2:
Terrestrial radiation and radiation budget / 2.3.3:
Atmospheric dynamics / 2.4:
Fluid characteristics / 2.4.1:
Effective atmospheric forces / 2.4.1.1:
Atmospheric flow: Laminar and turbulent / 2.4.1.2:
Fluid characteristics: Wind speed and direction / 2.4.1.3:
Properties of gases: The ideal gas / 2.5:
Gas laws / 2.5.1:
Mean free path and number of collisions between molecules / 2.5.2:
Viscosity / 2.5.3:
Diffusion / 2.5.4:
Atmospheric removal: Deposition processes / 2.6:
Dry deposition / 2.6.1:
Wet deposition / 2.6.2:
Characteristic times; Residence time, lifetime, and turnover time / 2.7:
Fundamentals of physicochemistry in the climate system / 3:
Chemical thermodynamics / 3.1:
First law of thermodynamics and its applications / 3.1.1:
Internal energy / 3.1.1.1:
Molar heat capacity / 3.1.1.2:
Thermochemistry: Heat of chemical reaction / 3.1.1.3:
Second law of thermodynamics and its applications / 3.1.2:
Entropy and reversibility / 3.1.2.1:
Thermodynamic potential: Gibbs-Helmholtz equation / 3.1.2.2:
Chemical potential / 3.1.2.3:
Chemical potential in real mixtures: Activity / 3.1.2.4:
Equilibrium / 3.2:
Chemical equilibrium: The mass action law / 3.2.1:
Phase equilibrium / 3.2.2:
Gas-liquid equilibrium: Evaporation and condensation / 3.2.2.1:
Gas-liquid equilibrium: Special case of droplets (Kelvin equation) / 3.2.2.2:
Absorption of gases in water: Henry's law / 3.2.2.3:
Solubility equilibrium: Solid-aqueous equilibrium / 3.2.2.4:
Adsorption and desorption / 3.2.2.5:
Steady state / 3.3:
Water: Physical and chemical properties / 3.4:
Water structure: Hydrogen bond / 3.4.1:
Water as solvent / 3.4.2:
Water vapor / 3.4.3:
Water properties in relation to the climate system / 3.4.4:
Properties of solutions and droplets / 3.5:
Surface tension and surface-active substances / 3.5.1:
Vapor pressure lowering: Raoult's law / 3.5.2:
Freezing point depression / 3.5.3:
Diffusion in solution / 3.5.4:
Heterogeneous processes: Multiphase chemistry in the climate system / 3.6:
Aerosols, clouds, and precipitation: The climate multiphase system / 3.6.1:
Gas-to-particle formation: Homogeneous formation of CCNs / 3.6.2:
Classical nucleation theory / 3.6.2.1:
Formation of secondary organic aerosols / 3.6.2.2:
Atmospheric aerosols and the properties of aerosol particles / 3.6.3:
Formation of cloud droplets: Heterogeneous nucleation / 3.6.4:
Scavenging: Acommodation, adsorption, and reaction (mass transfer) / 3.6.5:
Mass transfer: General remarks / 3.6.5.1:
Adsorption / 3.6.5.2:
Surface chemistry: Kinetics of heterogeneous chemical reactions / 3.6.5.3:
Mass transfer into droplets with chemical reaction / 3.6.5.4:
Fundamentals of chemistry in the climate system / 4:
State of matter / 4.1:
Atoms, elements, molecules, compounds, and substances / 4.1.1:
Pure substances and mixtures / 4.1.2:
Radicals, groups, and nomenclature / 4.1.3:
Units for chemical abundance: Concentrations and mixing ratios / 4.1.4:
Theory of chemical reactions / 4.2:
Chemical bonding / 4.2.1:
Types of chemical reactions / 4.2.2:
Chemical kinetics: Reaction rate constant / 4.2.3:
Catalysis / 4.3:
Electrochemistry / 4.4:
Electrolytic dissociation / 4.4.1:
Acids, bases, and the ionic product of water / 4.4.1.1:
pH value / 4.4.1.2:
Hydrolysis of salts and oxides / 4.4.1.3:
Buffer solutions / 4.4.1.4:
Complex ions / 4.4.1.5:
The CO2 -carbonate system / 4.4.1.6:
Oxidation-reduction reaction (redox process) / 4.4.2:
Hydrated electron: A fundamental species / 4.4.3:
Photochemistry / 4.5:
Photoexcitation: Electronic states / 4.5.1:
Photodissociation: Photolysis rate coefficient / 4.5.2:
Photocatalysis: Photosensitization and autoxidation / 4.5.3:
Environmental relevance of acidity / 4.6:
Atmospheric acidity / 4.6.1:
pH averaging / 4.6.2:
Isotopes in atmospheric chemistry and geochemistry / 4.7:
Substaces and chemical reactions in the climate system / 5:
Hydrogen / 5.1:
Natural occurrence / 5.1.1:
Compounds of hydrogen / 5.1.2:
Chemistry / 5.1.3:
Oxygen / 5.2:
Oxygen, dioxygen, and ozone: O, O2 , and O3 / 5.2.1:
Reactive oxygen species I: OH, HO2 , and H2 O2 (Hx Oy species) / 5.2.3:
Atmosphere, free of trace species / 5.2.3.1:
Atmosphere with trace species / 5.2.3.2:
Reactive oxygen species II: RO, RO2 , and ROOH / 5.2.4:
Aqueous-phase oxygen chemistry / 5.2.5:
Water chemistry / 5.2.5.1:
Dioxygen and superoxide ion chemistry / 5.2.5.2:
Hydrogen peroxide chemistry / 5.2.5.3:
Ozone and hydroxyl radical chemistry / 5.2.5.4:
Hydrogen polyoxides / 5.2.5.5:
Multiphase oxygen chemistry / 5.2.6:
Hydrogen peroxide / 5.2.6.1:
Ozone / 5.2.6.2:
Stratospheric oxygen chemistry / 5.2.7:
Nitrogen / 5.3:
Natural occurrence and sources / 5.3.1:
Thermal dissociation of dinitrogen (N2 ) / 5.3.2:
Ammonia (NH3 ) / 5.3.3:
Dinitrogen oxide (N2 O) / 5.3.4:
Inorganic nitrogen oxides and oxoacids (NOy ) / 5.3.5:
Gas-phase chemistry / 5.3.3.1:
Aqueous and interfacial chemistry / 5.3.5.2:
Organic nitrogen compounds / 5.3.6:
Amines, amides, and nitriles / 5.3.6.1:
Organic NOx compounds / 5.3.6.2:
Sulfur / 5.4:
Reduced sulfur: H2 S, COS, CS2 , and DMS / 5.4.1:
Oxides and oxoacids: SO2 , H2 SO3 , SO3 , and H2 SO4 / 5.4.3:
Gas-phase SO2 oxidation / 5.4.3.1:
Aqueous-phase sulfur chemistry / 5.4.3.2:
Multiphase sulfur chemistry / 5.4.4:
Phosphorus / 5.5:
Carbon / 5.6:
Organic carbon and chemistry / 5.6.1:
Elemental carbon and soot / 5.6.2:
Inorganic C1 chemistry: CO, CO2 , and H2 CO3 / 5.6.3:
Aqueous chemistry / 5.6.3.1:
Hydrocarbon oxidation and organic radicals / 5.6.4:
Organic C1 chemistry: CH4 , CH3 OH, HCHO, HCOOH / 5.6.5:
C2 chemistry: C2 H6 , CH3 CHO, C2 H5 OH, CH3 COOH, and (COOH)2
Alkenes, atkynes, and ketones / 5.6.6.1:
Aromatic compounds / 5.6.8:
Is the atmospheric fate of complex organic compounds predictable? / 5.6.9:
Halogens (Cl, Br, F, and I) / 5.7:
Chlorine in the environment / 5.7.1:
Formation of sea salt and chlorine degassing / 5.7.2:
Metals and metalloids / 5.7.3:
General remarks / 5.8.1:
Alkali and alkaline earth metals: Na, K, Mg, and Ca / 5.8.2:
Iron: Fe / 5.8.3:
Mercury: Hg / 5.8.4:
Cadmium: Cd / 5.8.5:
Lead: Pb / 5.8.6:
Arsenic: As / 5.8.7:
Silicon (Si) and aluminum (Al) / 5.8.8:
Biogeochemistry and global cycling / 6:
The hydrosphere and the global water cycle / 6.1:
The hydrological cycle and the climate system / 6.1.1:
Soil water and groundwater; Chemical weathering / 6.1.2:
Surface water: Rivers and lakes / 6.1.3:
The oceans / 6.1.4:
Atmospheric waters (hydrometeors): Chemical composition / 6.1.5:
Fog / 6.1.5.1:
Rain (precipitation) / 6.1.5.3:
Biogeochemical cycling / 6.2:
Photosynthesis: Nonequilibrium redox processes / 6.2.1:
Primary production of carbon / 6.2.2:
Nitrogen cycling / 6.2.3:
Sulfur cycling / 6.2.4:
Natural sources of atmospheric substances / 6.3:
Source characteristics / 6.3.1:
Biological processes / 6.3.2:
Continental / 6.3.2.1:
Oceanic / 6.3.2.2:
Geogenic processes / 6.3.3:
Soil dust / 6.3.3.1:
Sea salt / 6.3.3.2:
Volcanism / 6.3.3.3:
Chemical processes / 6.3.4:
Lightning / 6.3.4.1:
Secondary atmospheric processes / 6.3.4.2:
List of acronyms and abbreviations used in this volume / A:
Quantities, units, and some useful numerical values / B:
References
Name Index
Subject Index
Preface to the first edition
Author's preface to the third edition
Author's preface to the second edition
90.
図書
editor, H. Fischer ; authors, J.A. Howard ... [et al.]
目次情報:
続きを見る
Molecules and Radicals / Landolt-BörnsteinGroup II:
Magnetic Properties of Free Radicals / Volume 26:
Nitrogen and Oxygen Centered Radicals / Subvolume C:
Title Pages, Contributors, Preface, Table of Contents
Title Pages
Contributors
Preface
Table of Contents
General introduction / H. FischerI:
Definition and substances / A:
Magnetic properties / B:
Arrangements of the tables / C:
Monographs, reviews and important conference proceedings / D:
Data / II:
Nitrogen-centered monoradicals, biradicals and high-spin nitrenes / F.A. Neugebauer9:
Introduction / 9.1:
General remarks / 9.1.1:
Arrangement of tables / 9.1.2:
Abbreviations / 9.1.3:
Aminyl radicals of type R&sbond;N• &sbond;R (R &dbond; H, C) / 9.2:
Acyclic aminyl radicals / 9.2.1:
Alkylaminyl radicals / 9.2.1.1:
Vinylaminyl radicals / 9.2.1.2:
Arylaminyls / 9.2.1.3:
Aminyl radicals with heterocyclic substituent / 9.2.1.4:
Cyano- and acylaminyl radicals / 9.2.1.5:
Cyclic aminyl radicals / 9.2.2:
Monocyclic aminyl radicals / 9.2.2.1:
Aminyl radicals from four-membered rings / 9.2.2.1.1:
Aminyl radicals from five-membered rings / 9.2.2.1.2:
Aminyl radicals from six-membered rings / 9.2.2.1.3:
Fused polycyclic aminyl radicals / 9.2.2.2:
Based on five-membered rings / 9.2.2.2.1:
Based on six-membered rings / 9.2.2.2.2:
Based on seven-membered rings / 9.2.2.2.3:
Germylaminyl radicals of type R&sbond;N• &sbond;GeR3 / 9.3:
Hydrazyl and hydrazonyl radicals: R1 &sbond;N• &sbond;NR2 R3 , R1 &sbond;N• &sbond;N&dbond;CR2 R3 / 9.4:
Acyclic hydrazyl radicals / 9.4.1:
Leading atom of R1 , R2 , and R3 : Hydrogen or carbon / 9.4.1.1:
Alkylhydrazyl radicals / 9.4.1.1.1:
Arylhydrazyl radicals / 9.4.1.1.2:
Cyano- and acylhydrazyl radicals / 9.4.1.1.3:
Leading atom of R1 : Other than hydrogen or carbon / 9.4.1.2:
Leading atom of R2 : Other than hydrogen or carbon / 9.4.1.3:
Leading atom of R1 and R2 : Other than hydrogen or carbon / 9.4.1.4:
Cyclic hydrazyl radicals / 9.4.2:
Monocyclic hydrazyl radicals / 9.4.2.1:
Hydrazyl radicals from three-membered rings / 9.4.2.1.1:
Hydrazyl radicals from five-membered rings / 9.4.2.1.2:
Hydrazyl radicals from six-membered rings / 9.4.2.1.3:
Fused polycyclic hydrazyl radicals / 9.4.2.2:
Acyclic and cyclic hydrazonyl radicals / 9.4.3:
Acyclic hydrazonyl radicals / 9.4.3.1:
Cyclic hydrazonyl radicals / 9.4.3.2:
Oxyaminyl radicals: &sbond;N• &sbond;O&sbond; / 9.5:
Acyclic oxyaminyl radicals: R1 &sbond;N• &sbond;O&sbond;R2 / 9.5.1:
Leading atom of R1 and R2 : Carbon / 9.5.1.1:
Leading atom of R2 : Other than carbon / 9.5.1.2:
Leading atom of R1 : Other than carbon / 9.5.1.3:
Cyclic oxyaminyl radicals / 9.5.2:
Thioaminyl radicals: &sbond;N• &sbond;S&sbond;, &sbond;N• &sbond;S(&dbond;O)&sbond;, &sbond;N• &sbond;SO2 &sbond; / 9.6:
Acyclic thioaminyl radicals / 9.6.1:
Sulfenamidyl radicals: R1 &sbond;N• &sbond;S&sbond;R2 / 9.6.1.1:
Sulfinamidyl radicals: R1 &sbond;N• &sbond;S(&dbond;O)&sbond;R2 / 9.6.1.1.1:
Sulfonamidyl radicals: R1 &sbond;N• &sbond;SO2 &sbond;R2 / 9.6.1.3:
Cyclic thioaminyl radicals / 9.6.2:
Monocyclic thioaminyl radicals / 9.6.2.1:
Thioaminyl radicals from five-membered rings / 9.6.2.1.1:
Thioaminyl radicals from six-membered rings / 9.6.2.1.2:
Thioaminyl radicals from eight-membered rings / 9.6.2.1.3:
Fused polycyclic thioaminyl radicals / 9.6.2.2:
Bridged thioaminyl radicals / 9.6.2.3:
Selenoaminyl radicals: &sbond;N• &sbond;Se&sbond; / 9.7:
Iminyl radicals: >C&dbond;N• / 9.8:
Iminyl radicals of type RCH&dbond;N• / 9.8.1:
Iminyl radicals of type R1 R2 C&dbond;N• / 9.8.2:
Diazenyl radicals: R&sbond;N•+ &dbond;N− / 9.9:
Iminoxyl radicals: >C&dbond;N&sbond;O• / 9.10:
Acyclic iminoxyl radicals / 9.10.1:
Iminoxyl radicals of type RCH&dbond;N&sbond;O• , leading atom of R: Carbon / 9.10.1.1:
Iminoxyl radicals of type R1 R2 C&dbond;N&sbond;O• / 9.10.1.2:
Leading atom of R1 and R2 : Other than carbon / 9.10.1.2.1:
Cyclic iminoxyl radicals / 9.10.2:
Monocyclic iminoxyl radicals / 9.10.2.1:
Fused polycyclic iminoxyl radicals / 9.10.2.2:
Bridged iminoxyl radicals / 9.10.2.3:
Nitrogen-centered biradicals / 9.11:
Aminyl biradicals / 9.11.1:
Hydrazyl biradicals / 9.11.2:
Acyclic hydrazyl biradicals / 9.11.2.1:
Cyclic hydrazyl biradicals / 9.11.2.2:
Thioaminyl biradicals / 9.11.3:
Acyclic thioaminyl biradicals / 9.11.3.1:
Cyclic thioaminyl biradicals / 9.11.3.2:
Cyclic selenoaminyl biradical / 9.11.4:
Biradicals with different kinds of radical centers / 9.11.5:
Type R1 N• .....C• R2 R3 / 9.11.5.1:
Type R1 N• .....N(O• )R2 / 9.11.5.2:
Type R1 N• .....O• / 9.11.5.3:
High-spin mono- and polynitrenes / 9.12:
Mononitrenes / 9.12.1:
Alkyl nitrenes / 9.12.1.1:
Cyano nitrene / 9.12.1.2:
Carbonyl nitrene / 9.12.1.3:
Aryl nitrenes / 9.12.1.4:
Heterocyclic nitrenes / 9.12.1.5:
Boryl nitrene / 9.12.1.6:
Phosphoryl nitrene / 9.12.1.7:
Sulfonyl nitrenes / 9.12.1.8:
Silyl nitrenes / 9.12.1.9:
Stannyl nitrene / 9.12.1.10:
Mononitrenes and additional radicals (S = 3/2, S = 2) / 9.12.2:
Nitrene and benzyl / 9.12.2.1:
Nitrene and aminyl / 9.12.2.2:
Nitrene and hydrazyl / 9.12.2.3:
Nitrene and nitroxyde / 9.12.2.4:
Nitrene, alkyl and aminyl / 9.12.2.5:
Nitrene and carbine / 9.12.2.6:
Quinonoidal dinitrenes (iminyl biradicals) / 9.12.3:
Dinitrenes (S = 2) / 9.12.4:
Arylene dinitrenes / 9.12.4.1:
Bis(arylnitrenes) linked by >C&dbond;CH2 or >C&dbond;O / 9.12.4.2:
Bis(arylnitrenes) linked by &sbond;HC&dbond;CH&sbond;, &sbond;[C&tbond;C]n &sbond;, &sbond;(1,3-C6 H4 )&sbond;,.or &sbond;C&tbond;C&sbond;(1,3-C6 H4 )&sbond;C&tbond;C&sbond; / 9.12.4.3:
Bis(arylnitrenes) linked by carbocyclic or heterocyclic bridges / 9.12.4.4:
Bis(arylnitrenes) linked by &sbond;CONH&sbond; / 9.12.4.5:
Bis(arylnitrenes) linked by hetero atoms: O, S, Si / 9.12.4.6:
Heterocyclic dinitrenes / 9.12.4.7:
Polynitrenes (S ≥ 3) / 9.12.5:
References for 9 / 9.13:
Review articles / 9.13.1:
References for 9.2-9.12 / 9.13.2:
Oxy- and peroxyalkyl radicals / J.A. Howard10:
Carbonyloxy radicals / 10.1:
Sulfinyl radicals / 10.3:
Alkylperoxy radicals / 10.4:
Alkenylperoxy radicals / 10.5:
Substituted alkylperoxy radicals / 10.6:
Aromatic peroxy radicals / 10.7:
Thiylperoxy radicals / 10.8:
Sulphonylperoxyl radicals / 10.9:
Peroxyl radicals from biological molecules / 10.10:
Polymer peroxyl radical / 10.11:
Metal centered peroxyl radical / 10.12:
References for 10 / 10.13:
Aroxyl radicals / R. Mecke ; H.H. Jäger ; M. Jäger11:
Arrangement of the tables / 11.1:
Carbocycles / 11.1.3:
Monocyclic compounds / 11.2.1:
Phenoxyls / 11.2.1.1:
Phenoxyl / 11.2.1.1.1:
Monosubstituted phenoxyls / 11.2.1.1.2:
Tyrosyl / 11.2.1.1.2.1:
Tyrosine derived radicals / 11.2.1.1.2.2:
Tyrosine radicals in biological systems / 11.2.1.1.2.3:
Disubstituted phenoxyls / 11.2.1.1.3:
Trisubstituted phenoxyls / 11.2.1.1.4:
2,3,4-trisubstituted phenoxyls / 11.2.1.1.4.1:
2,3,5-trisubstituted phenoxyls / 11.2.1.1.4.2:
2,3,6-trisubstituted phenoxyls / 11.2.1.1.4.3:
2,4,5-trisubstituted phenoxyls / 11.2.1.1.4.4:
2,4,6-trisubstituted phenoxyls (1/6) / 11.2.1.1.4.5:
2,4,6-trisubstituted phenoxyls (2/6)
2,4,6-trisubstituted phenoxyls (3/6)
2,4,6-trisubstituted phenoxyls (4/6)
2,4,6-trisubstituted phenoxyls (5/6)
2,4,6-trisubstituted phenoxyls (6/6)
3,4,5-trisubstituted phenoxyls / 11.2.1.1.4.6:
Tetrasubstituted phenoxyls / 11.2.1.1.5:
Pentasubstituted phenoxyls / 11.2.1.1.6:
Condensed ring systems / 11.2.2:
Systems with condensed non-aromatic rings / 11.2.2.1:
Naphthoxyls / 11.2.2.2:
Anthroxyls / 11.2.2.3:
Polycondensed systems / 11.2.2.4:
Heterocycles / 11.3:
N-heterocycles / 11.3.1:
O-heterocycles / 11.3.2:
5-membered heterocyclic systems / 11.3.2.1:
6-membered heterocyclic systems / 11.3.2.2:
Condensed dioxol systems / 11.3.2.3:
S-heterocycles / 11.3.3:
Cations / 11.4:
Bi- and polyradicals / 11.5:
References for 11 / 11.6:
General symbols and abbreviations / III:
Symbols
Substances or part of substances
Molecules and Radicals / Landolt-BörnsteinGroup II:
Magnetic Properties of Free Radicals / Volume 26:
Nitrogen and Oxygen Centered Radicals / Subvolume C:
91.
図書
edited by Caitlin H. Bell ... [et al.]
出版情報:
Boca Raton : CRC Press, c2019 xxix, 439 p. ; 24 cm
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List of Figures
List of Tables
Foreword
Acknowledgments
Editors
Contributors
Introduction to Emerging Contaminants / Chapter 1:
Introduction / 1.1:
Who Identifies Emerging Contaminants? / 1.2:
United States Environmental Protection Agency / 1.2.1:
United States Department of Defense / 1.2.2:
United States Geologic Survey / 1.2.3:
State Agencies in the United States / 1.2.4:
Stockholm Convention on Persistent Organic Pollutants / 1.2.5:
European Union / 1.2.6:
Australian National Environment Protection Council / 1.2.7:
What is the Life Cycle of an Emerging Contaminant? / 1.3:
What are the Key Challenges Associated with Emerging Contaminants? / 1.4:
The Need for Balance / 1.5:
This Book / 1.6:
Acronyms
1,4-Dioxane / Chapter 2:
Basic Information / 2.1:
Toxicity and Risk Assessment / 2.3:
Potential Noncancer Effects / 2.3.1:
Potential Cancer Effects / 2.3.2:
Regulatory Status / 2.4:
Site Characterization / 2.5:
Investigation Approaches / 2.5.1:
Analytical Methods / 2.5.2:
Advanced Investigation Techniques / 2.5.3:
Soil Treatment / 2.6:
Groundwater Treatment / 2.7:
In Situ Treatment / 2.7.1:
In Situ Chemical Oxidation / 2.7.1.1:
Bioremediation / 2.7.1.2:
Phytoremediation / 2.7.1.3:
Thermal Treatment / 2.7.1.4:
Ex Situ Treatment and Dynamic Groundwater Recirculation / 2.7.2:
Natural Attenuation / 2.7.3:
Drinking Water and Wastewater Treatment / 2.8:
Point-of-Use and Point-of-Entry Treatment / 2.8.1:
1.4-Dioxane Treatment Technologies for Drinking Water Treatment and Ex Situ Groundwater Remediation / 2.9:
Advanced Oxidation Processes / 2.9.1:
Bioreaetors / 2.9.2:
Granular Activated Carbon and Other Sorbenl Media / 2.9.3:
Electrochemical Oxidation / 2.9.4:
Conclusion / 2.10:
Per- and Polyfluoroalkyl Substances / Chapter 3:
PFASs Chemistry / 3.1:
Ionic State / 3.2.1:
Linear and Branched Isomers / 3.2.2:
Perfluoroalkyl Substances / 3.2.3:
Perfluoroalkyl Sulfonic Acids / 3.2.3.1:
Perfluoroalkyl Carboxylic Acids / 3.2.3.2:
Perfluoroalkyl Phosphonic and Phosphinic Acids / 3.2.3.3:
Perfluoroalkyl Ether Carboxylates and Perfluoroalkyl Ether Sulfonates / 3.2.3.4:
Polyfluoroalkyl Substances / 3.2.4:
ECF-Derived Polyfluoroalkyl Substances / 3.2.4.1:
Fluorotelomerizat ion-Derived Polyfluoroalkyl Substances / 3.2.4.2:
Long- and Short-Chain PFASs / 3.2.5:
Polymeric PFASs / 3.2.6:
Replacement PFASs / 3.2.7:
Chemistry of PFASs in Class B Firefighting Foams / 3.2.8:
Physical, Chemical, and Biological Properties / 3.3:
Biological Activity Towards PFASs / 3.3.1:
Transformation of Polyfluoroalkyl Substances / 3.3.2:
Abiotic Transformation / 3.3.2.1:
Biotic Transformation / 3.3.2.2:
PFASs Production and Use / 3.4:
Manufacturing Processes and Uses / 3.4.1:
Electrochemical Fluorination / 3.4.2:
Fluorotelomerization / 3.4.3:
Oligomerization / 3.4.4:
Uses / 3.4.5:
Use as Surfactants / 3.4.5.1:
Use as Surface Coatings / 3.4.5.2:
Other Uses / 3.4.5.3:
Sampling and Analysis / 3.5:
General Sampling Guidelines / 3.5.1:
Soil and Sediment Sampling / 3.5.1.1:
Surface Water and Groundwater Sampling / 3.5.1.2:
Storage and Hold Times / 3.5.1.3:
Chemical Analysis Methods / 3.5.2:
Overview of Standard Methods / 3.5.2.1:
Advanced Analytical Techniques / 3.5.2.2:
Health Considerations / 3.6:
Exposure Routes / 3.6.1:
Distribution in Tissue / 3.6.2:
Bioaccumulation / 3.6.3:
Elimination / 3.6.4:
Toxicologic and Epidemiological Studies / 3.6.5:
Acute Toxicity / 3.6.5.1:
(Sub)Chronic Toxicity / 3.6.5.2:
Epidemiological Studies / 3.6.5.3:
Polyfluoroalkyl Substance Toxicity / 3.6.5.4:
Derivation of Reference Doses/Tolerable Daily Intakes / 3.6.5.5:
Carcinogenic Effects / 3.6.5.6:
Regulation / 3.7:
Regulation of PFASs / 3.7.1:
Global Treaties and Conventions / 3.7.1.1:
United States of America / 3.7.1.2:
Europe / 3.7.1.3:
Australia / 3.7.1.4:
Regulation of Perfluoroalkyl Ethers / 3.7.2:
Fate and Transport / 3.8:
PFAS Distribution in Environmental Matrices / 3.8.1:
PFASs in Soils / 3.8.1.1:
Leaching / 3.8.1.2:
Transport and Retardation in Groundwater / 3.8.1.3:
Surface Waters and Sediments / 3.8.1.4:
Vapor Migration / 3.8.1.5:
Atmospheric Deposition / 3.8.1.6:
Detections and Background Levels in the Environment / 3.8.2:
Sites of Concern / 3.8.3:
CSM for Industrial Facilities / 3.8.3.1:
CSM for Fire Training Areas and Class B Fire Response Areas / 3.8.3.2:
CSM for WWTPs and Biosolid Application Areas / 3.8.3.3:
CSM for Landfills / 3.8.3.4:
PFAS-Relevant Treatment Technologies / 3.9:
Biological Treatment / 3.9.1:
Soil and Sediment Treatment / 3.9.2:
Incineration / 3.9.2.1:
Stabilization/Solidification / 3.9.2.2:
Vapor Energy Generator Technology / 3.9.2.3:
Soil/Sediment Washing / 3.9.2.4:
High-Energy Electron Beam / 3.9.2.5:
Mechanochemical Destruction / 3.9.2.6:
Water Treatment / 3.9.3:
Mature Water Treatment Technologies / 3.9.3.1:
Developing Treatment Technologies / 3.9.3.2:
Experimental Treatment Technologies / 3.9.3.3:
Conclusions / 3.10:
Hexavalent Chromium / Chapter 4:
Geochemistry of Chromium / 4.1:
Sources of Cr(VI) / 4.1.2:
U.S. Federal Regulations / 4.2:
U.S. State Regulations / 4.3.2:
California / 4.3.2.1:
North Carolina / 4.3.2.2:
New Jersey / 4.3.2.3:
Other Countries / 4.3.3:
Occurrence of Cr(VI) / 4.4:
Naturally Occurring (Background) Cr(VI) in Groundwater / 4.4.1:
Cr(VI) in Drinking Water / 4.4.2:
Investigation of Cr(VI) in Groundwater / 4.5:
Chromium Isotopes / 4.5.2:
Mineralogical Analyses / 4.5.3.2:
In Situ Reduction / 4.6:
In Situ Chemical Reduction / 4.6.1.1:
In Situ Biological Reduction / 4.6.1.2:
Permeable Reactive Barriers / 4.6.1.3:
Reoxidation of Cr(III) Formed by In Situ Reduction / 4.6.1.4:
Ex Situ Treatment / 4.6.2:
Dynamic Groundwater Recirculation
Tier I / 4.6.4:
Tier II / 4.6.4.2:
Tier III / 4.6.4.3:
Tier IV / 4.6.4.4:
Drinking Water Treatment / 4.7:
Point-of-Entry and Point-of-Use Treatment / 4.7.1:
Cr(VI) Treatment Technologies for Drinking Water Treatment and Ex Situ Groundwater Remediation / 4.8:
Reduction/Coagulation/Filtration with Ferrous Iron / 4.8.1:
Ion Exchange / 4.8.2:
Weak Base Anion Resins / 4.8.2.1:
Strong Base Anion Resins / 4.8.2.2:
Reverse Osmosis / 4.8.3:
Bioreactors / 4.8.4:
Phytostabilization / 4.8.4.1:
Iron Media / 4.8.4.2:
Reduction/Filtration via Stannous Chloride (RF-Sn[II]) / 4.8.5:
1,2,3-Trichloropropane / 4.9:
International Guidance / 5.1:
Investigation / 5.4:
Groundwater Remediation Technologies / 5.4.2:
In Situ Hydrolysis / 5.5.1:
In Situ Biological Treatment / 5.5.1.2:
TCP Treatment Technologies for Drinking Water Treatment and Ex Situ Groundwater Remediation / 5.5.1.3:
Granular Activated Carbon / 5.7.1:
Air Stripping / 5.7.2:
Other Processes / 5.7.4:
Considerations for Future Contaminants of Emerging Concern / 5.8:
Categorizing Future Emerging Contaminants / 6.1:
The Challenges Posed in Emerging Contaminant Management / 6.3:
Challenges Associated with Release to the Environment / 6.3.1:
Challenges Associated with Assessing Toxicological Risk / 6.3.2:
Challenges Associated with Regulation / 6.3.3:
Challenges Associated with Characterization and Analysis / 6.3.4:
Challenges Associated with Treatment / 6.3.5:
The Future of Emerging Contaminants / 6.4:
Appendices
USEPA Candidate Contaminant List / Appendix A:
REACH Candidate List / Appendix B:
Emerging Contaminants and Their Physical and Chemical Properties / Appendix C:
NGI Preliminary List of Substances That Could Be Considered to Meet the PMT or vPvM Criteria / Appendix D:
Summary of PFAS Environmental Standards: Soil / Appendix E.1:
Summary of PFAS Environmental Standards: Groundwater / Appendix E.2:
Summary of PFAS Environmental Standards: Surface Water / Appendix E.3:
Summary of PFAS Environmental Standards: Drinking Water / Appendix E.4:
Notes / Appendix E.5:
Index
List of Figures
List of Tables
Foreword
92.
図書
Ivan Kozhevnikov
目次情報:
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Series Preface
Preface to Volume 2
Introduction / 1:
Scope and definitions / 1.1:
Nomenclature / 1.2:
Historical background / 1.3:
Introduction to catalysis by polyoxometalates / 1.4:
References
Properties of Polyoxometalates / 2:
Structures of polyoxometalates / 2.1:
General principles / 2.1.1:
The Keggin structure / 2.1.2:
The Wells-Dawson structure / 2.1.3:
The Anderson-Evans structure / 2.1.4:
The Dexter-Silverton structure / 2.1.5:
Crystal structure of heteropoly compounds / 2.2:
Thermal stability / 2.3:
Solubility / 2.4:
Formation and state in solution / 2.5:
Stability of polyoxometalates in solution / 2.5.1:
Polyoxometalates as ligands / 2.5.2:
Isotope exchange / 2.5.3:
Kinetics and mechanism of substitution in polyoxmetalates / 2.5.4:
Acid properties / 2.6:
Proton structure / 2.6.1:
Heteropoly acids in solutions / 2.6.2:
Acidity of solid heteropoly acids / 2.6.3:
Redox properties / 2.7:
Synthesis of Polyoxometalates / 3:
General methods of synthesis / 3.1:
Keggin polyoxometalates / 3.2:
12-Molybdosilicic acid, [alpha]-H[subscript 4 SiMo[subscript 12]O[subscript 40] / 3.2.1:
12-Tungstosilicic acid, [alpha]-H[subscript 4 SiW[subscript 12]O[subscript 40] / 3.2.2:
12-Tungstophosphoric acid, [alpha]-H[subscript 3 PW[subscript 12]O[subscript 40] / 3.2.3:
12-Molybdophosphoric acid, [alpha]-H[subscript 3 PMo[subscript 12]O[subscript 40] / 3.2.4:
12-Tungstogermanic acid, [alpha]-[H[subscript 4 GeW[subscript 12]O[subscript 40] / 3.2.5:
11-Molybdo-1-vanadophosphoric acid, H[subscript 4 PMo[subscript 11] VO[subscript 40] / 3.2.6:
10-Molybdo-2-vanadophosphoric acid, H[subscript 5 PMo[subscript 10]V[subscript 2]O[subscript 40] / 3.2.7:
9-Molybdo-3-vanadophosphoric acid, H[subscript 6 PMo[subscript 9] V[subscript 3]O[subscript 40] / 3.2.8:
Transition-metal-substituted tungstophosphates, {PW[subscript 11]MO[subscript 39]} / 3.2.9:
Wells-Dawson polyoxometalates / 3.3:
18-Tungstodiphosphoric acid, H[subscript 6 P[subscript 2]W[subscript 18]O[subscript 62] / 3.3.1:
Sandwich-type polyoxometalates / 3.4:
Na[subscript 12 WZn[subscript 3](H[subscript 2]O)[subscript 2](ZnW[subscript 9]O[subscript 34])[subscript 2] / 3.4.1:
Na[subscript 12 WCo[subscript 3 superscript II](H[subscript 2]O)[subscript 2] (Co[superscript II]W[subscript 9]O[subscript 34])[subscript 2] / 3.4.2:
K[subscript 11 WZnRu[subscript 2 superscript III](OH)(H[subscript 2]O) (ZnW[subscript 9]O[subscript 34])[subscript 2] / 3.4.3:
K[subscript 10 WZnRh[superscript III subscript 2](H[subscript 2]O)(ZnW[subscript 9]O[subscript 34])[subscript 2] / 3.4.4:
Peroxo polyoxometalates / 3.5:
Venturello complex, {PO[subscript 4 WO(O[subscript 2])[subscript 2 subscript 4]}[superscript 3-] / 3.5.1:
Polyoxometalate catalysts / 3.6:
Solid acid catalysts / 3.6.1:
Homogeneous catalysts / 3.6.2:
Acid Catalysis by Heteropoly Compounds / 4:
General overview / 4.1:
The scope of applications / 4.1.1:
Mechanistic principles / 4.1.2:
Homogeneous acid catalysis / 4.2:
Acid-catalysed reactions / 4.2.1:
Acid-catalysed reactions in biphasic liquid-liquid systems / 4.3:
Biphasic reactions / 4.3.1:
Heterogeneous acid catalysts / 4.4:
Heteropoly acid catalysts / 4.4.1:
Heterogeneous catalysis in liquid-solid systems / 4.4.2:
Heterogeneous catalysis in gas-solid systems / 4.4.3:
Deactivation and regeneration of solid heteropoly acid catalysts / 4.5:
Polyoxometalates as Catalysts for Selective Oxidation / 5:
Liquid-phase oxidation / 5.1:
Oxidation with dioxygen / 5.1.1:
Oxidation with hydrogen peroxide / 5.1.2:
Oxidation with organic peroxides / 5.1.3:
Miscellaneous oxidations / 5.1.4:
Gas-phase oxidation / 5.2:
Oxidation catalysts / 5.2.1:
Reactions / 5.2.3:
Miscellaneous Catalytic Applications of Polyoxometalates / 6:
Hydrogenation, carbonylation and related reactions / 6.1:
Polyanion-stabilised clusters / 6.2:
Polyoxometalates as catalyst precursors / 6.3:
Catalysis by Polyoxometalates in Industry / 7:
Acid catalysis / 7.1:
Hydration of olefins / 7.1.1:
Synthesis of ethyl acetate from ethylene and acetic acid / 7.1.2:
Selective oxidation / 7.2:
Oxidation of methacrolein in methacrylic acid / 7.2.1:
Oxidation of ethylene to acetic acid / 7.2.2:
Other Applications of Polyoxometalates / 8:
Analytical chemistry / 8.1:
Elemental analysis / 8.1.1:
Analysis of biomaterials / 8.1.2:
Separation / 8.2:
Processing of radioactive waste / 8.2.1:
Sorption of gases / 8.2.2:
Corrosion-resistant coatings / 8.3:
Polyoxometalates as additives to inorganic and organic matrices / 8.4:
Additives in sol-gel matrices / 8.4.1:
Additives in polymer matrices / 8.4.2:
Membranes / 8.5:
Fuel cells / 8.5.1:
Selective electrodes / 8.5.2:
Gas sensors / 8.5.3:
Polyoxometalates in medicine: antiviral and antitumoral activity / 8.6:
Index
Series Preface
Preface to Volume 2
Introduction / 1:
93.
図書
Shiping Liu, Gang (Sheng) Chen
出版情報:
Hoboken, NJ : Wiley, 2019 xii, 254 p. ; 23 cm
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Preface
Introduction / 1:
Robot Joint Friction Modeling and Parameter Identification / 1.1:
Contact Perception in Virtual Environment / 1.2:
Organization of This Book / 1.3:
References
Fundamentals of Robot Dynamics and Control / 2:
Robot Kinematics / 2.1:
Matrix Description of Robot Kinematics / 2.1.1:
Homogeneous Transformation Matrices / 2.1.2:
Forward Kinematics / 2.1.3:
Inverse Kinematics / 2.1.4:
Velocity Kinematics / 2.1.5:
Robot Dynamics / 2.2:
Robot Control / 2.3:
Trajectory Control / 2.3.1:
Point-to-point Control / 2.3.2.1:
Trajectories for Paths Specified by Points / 2.3.2.2:
Interaction Control / 2.3.3:
Impedance Control / 2.3.3.1:
Hybrid Force-Position Control 38 References / 2.3.3.2:
Friction and Contact of Solid Interfaces / 3:
Contact Between Two Solid Surfaces / 3.1:
Description of Surfaces / 3.2.1:
Contact Mechanics of Two Solid Surfaces / 3.2.2:
Friction Between Two Solid Surfaces / 3.3:
Adhesion / 3.3.1:
Dry Friction / 3.3.2:
Friction Mechanisms / 3.3.2.1:
Friction Transitions and Wear / 3.3.2.2:
Static Friction, Hysteresis, Time, and Displacement Dependence / 3.3.2.3:
Effects of Environmental and Operational Condition on Friction / 3.3.2.4:
Liquid Mediated Friction / 3.3.3:
Stribeck Curve / 3.3.3.1:
Unsteady Liquid-Mediated Friction / 3.3.3.2:
Negative Slope of Friction-Velocity Curve / 3.3.3.3:
Friction Models / 3.3.4:
Friction Dynamics of Manipulators / 4:
Friction Models of Robot Manipulator Joints / 4.1:
Modeling Friction with Varied Effects / 4.2:
The Motion Equations of Dynamics of Robot Manipulators with Friction / 4.3:
The General Motion Equation of Robot Manipulators / 4.3.1:
The Motion Equation of Two-Link Robot Manipulators / 4.3.2:
Nonlinear Dynamics and Chaos of Manipulators / 4.4:
Parameters Identification / 4.5:
Identification of Dynamic Parameters / 4.5.1:
Identification of Parameters of Friction Models / 4.5.2:
Uncertainty Analysis / 4.5.3:
Friction Compensation and Control of Robot Manipulator Dynamics / 4.6:
Force Feedback and Haptic Rendering / 5:
Overview of Robot Force Feedback / 5.1:
Generating Methods of Feedback Force / 5.2:
Serial Mechanism / 5.2.1:
Kinematics / 5.2.1.1:
Dynamics / 5.2.1.2:
Parallel Mechanism / 5.2.2:
Kinematics Model / 5.2.2.1:
Dynamics Based on Virtual Work / 5.2.2.2:
Friction Compensation / 5.2.3:
Calculation of Virtual Force / 5.3:
Collision Detection / 5.3.1:
The Construction of the Bounding Box / 5.3.1.1:
Calculation of Distance between Bounding Boxes / 5.3.1.2:
Calculating the Model of Virtual Force / 5.3.2:
1-DoF Interaction / 5.3.2.1:
2-DoF Interaction / 5.3.2.2:
3-DoF Interaction / 5.3.2.3:
6-DoF Interaction / 5.3.2.4:
Haptic Display Based on Point Haptic Device / 5.4:
Human Tactile Perception / 5.4.1:
Haptic Texture Display Methods / 5.4.2:
Virtual Simulation of Robot Control / 6:
Overview of Robot Simulation / 6.1:
3D Graphic Environment / 6.2:
Virtual Reality-Based Robot Control / 6.3:
Overview of Virtual Reality / 6.3.1:
Overview of Teleoperation / 6.3.2:
Virtual Reality-Based Teleoperation / 6.3.3:
Augmented Reality-Based Tele operation / 6.4:
Overview of Augmented Reality / 6.4.1:
Augmented Reality-Based Teleoperation / 6.4.2:
Task Planning Methods in Virtual Environment / 6.5:
Overview / 6.5.1:
Interactive Graphic Mode / 6.5.2:
Index
Preface
Introduction / 1:
Robot Joint Friction Modeling and Parameter Identification / 1.1:
94.
図書
by Robert J. Hilderman, Howard J. Hamilton
目次情報:
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List of Figures
List of Tables
Preface
Acknowledgments
Introduction / 1.:
KDD in a Nutshell / 1.1:
The Mining Step / 1.1.1:
The Interpretation and Evaluation Step / 1.1.2:
Objective of the Book / 1.2:
Background and Related Work / 2.:
Data Mining Techniques / 2.1:
Classification / 2.1.1:
Association / 2.1.2:
Clustering / 2.1.3:
Correlation / 2.1.4:
Other Techniques / 2.1.5:
Interestingness Measures / 2.2:
Rule Interest Function / 2.2.1:
J-Measure / 2.2.2:
Itemset Measures / 2.2.3:
Rule Templates / 2.2.4:
Projected Savings / 2.2.5:
I-Measures / 2.2.6:
Silbershatz and Tuzhilin's Interestingness / 2.2.7:
Kamber and Shinghal's Interestingness / 2.2.8:
Credibility / 2.2.9:
General Impressions / 2.2.10:
Distance Metric / 2.2.11:
Surprisingness / 2.2.12:
Gray and Orlowska's Interestingness / 2.2.13:
Dong and Li's Interestingness / 2.2.14:
Reliable Exceptions / 2.2.15:
Peculiarity / 2.2.16:
A Data Mining Technique / 3.:
Definitions / 3.1:
The Serial Algorithm / 3.2:
General Overview / 3.2.1:
Detailed Walkthrough / 3.2.2:
The Parallel Algorithm / 3.3:
Complexity Analysis / 3.3.1:
Attribute-Oriented Generalization / 3.4.1:
The All_Gen Algorithm / 3.4.2:
A Comparison with Commercial OLAP Systems / 3.5:
Heuristic Measures of Interestingness / 4.:
Diversity / 4.1:
Notation / 4.2:
The Sixteen Diversity Measures / 4.3:
The I[subscript Variance] Measure / 4.3.1:
The I[subscript Simpson] Measure / 4.3.2:
The I[subscript Shannon] Measure / 4.3.3:
The I[subscript Total] Measure / 4.3.4:
The I[subscript Max] Measure / 4.3.5:
The I[subscript McIntosh] Measure / 4.3.6:
The I[subscript Lorenz] Measure / 4.3.7:
The I[subscript Gini] Measure / 4.3.8:
The I[subscript Berger] Measure / 4.3.9:
The I[subscript Schutz] Measure / 4.3.10:
The I[subscript Bray] Measure / 4.3.11:
The I[subscript Whittaker] Measure / 4.3.12:
The I[subscript Kullback] Measure / 4.3.13:
The I[subscript MacArthur] Measure / 4.3.14:
The I[subscript Theil] Measure / 4.3.15:
The I[subscript Atkinson] Measure / 4.3.16:
An Interestingness Framework / 5.:
Interestingness Principles / 5.1:
Summary / 5.2:
Theorems and Proofs / 5.3:
Minimum Value Principle / 5.3.1:
Maximum Value Principle / 5.3.2:
Skewness Principle / 5.3.3:
Permutation Invariance Principle / 5.3.4:
Transfer Principle / 5.3.5:
Experimental Analyses / 6.:
Evaluation of the All_Gen Algorithm / 6.1:
Serial vs Parallel Performance / 6.1.1:
Speedup and Efficiency Improvements / 6.1.2:
Evaluation of the Sixteen Diversity Measures / 6.2:
Comparison of Assigned Ranks / 6.2.1:
Analysis of Ranking Similarities / 6.2.2:
Analysis of Summary Complexity / 6.2.3:
Distribution of Index Values / 6.2.4:
Conclusion / 7.:
Areas for Future Research / 7.1:
Appendices
Ranking Similarities
Summary Complexity
Index
List of Figures
List of Tables
Preface
95.
図書
V. L. Cherginets
目次情報:
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List of symbols
Introduction
Homogeneous acid-base equilibria and acidity scales in ionic melts / 1:
Definitions of acids and bases / Part 1:
Definitions of particles possessing acid or base properties / 1.1.1:
Definitions of solvents system / 1.1.2:
Hard and soft acids and bases (Pearson's concept) / 1.1.3:
Generalized definition of solvent system. Solvents of kinds I and II / 1.1.4:
Studies of homogeneous acid-base reactions in ionic melts / Part 2:
Features of high-temperature ionic solvents as media for Lux acid-base interactions / 1.2.1:
Methods of investigations / 1.2.2:
Ionic solvents based on alkali metal nitrates / 1.2.3:
Molten alkali metal sulfates / 1.2.4:
Silicate melts / 1.2.5:
KCl-NaCl equimolar mixture / 1.2.6:
Oxocompounds of chromium(VI) / 1.2.6.1:
Oxoacids of molybdenum(VI) / 1.2.6.2:
Oxocompounds of tungsten(VI) / 1.2.6.3:
Oxoacidic properties of phosphates / 1.2.6.4:
Oxoacids of vanadium(V) / 1.2.6.5:
Oxoacids of boron(III) / 1.2.6.6:
Acidic properties of Ge(IV) and Nb(V) oxocompounds / 1.2.6.7:
Molten KCl-LiCl (0.41:0.59) EUTECTIC / 1.2.7:
Molten NaI / 1.2.8:
Other alkaline-metal halides / 1.2.9:
Conclusion / 1.2.10:
Acid-base ranges in ionic melts. Estimation of relative acidic properties of ionic melts / Part 3:
The oxobasicity index as a measure of relative oxoacidic properties of high-temperature ionic solvents / 1.3.1:
Oxoacidity scales for melts based on alkali- and alkaline-earth metal halides / 1.3.2:
Oxygen electrodes in ionic melts. Oxide ion donors / 1.3.3:
Oxygen electrode reversibility in ionic melts / Part 4:
Potentiometric method of study of oxygen electrode reversibility / 2.4.1:
Direct calibration / 2.4.1.1:
Indirect calibration of oxygen electrodes / 2.4.1.2:
Experimental results / 2.4.2:
Oxygen-containing melts / 2.4.2.1:
Melts based on alkali metal halides / 2.4.2.2:
Melts based on alkali- and alkaline-earth halides / 2.4.2.3:
KCl-NaCl-NaF eutectic / 2.4.2.4:
Conclusions / 2.4.3:
Investigations of dissociation of Lux bases in ionic melts / Part 5:
Reactions of ionic melts with gases of acidic or base character / 2.5.1:
High-temperature hydrolysis of melts based on alkali metal halides / 2.5.1.1:
Purification of halide ionic melts from oxide-ion admixtures / 2.5.1.2:
Behaviour of Lux bases in ionic melts / 2.5.2:
Sodium peroxide, Na[subscript 2]O[subscript 2] / 2.5.2.1:
Alkali metal carbonates, Me[subscript 2]CO[subscript 3] / 2.5.2.2:
Alkali metal hydroxides, MeOH / 2.5.2.3:
Equilibria in "solid oxide-ionic melt" systems / 3:
Characteristics of oxide solubilities and methods of their determination / Part 6:
Parameters describing solubilities of solid substances in ionic solvents / 3.6.1:
Methods of oxide solubility determination / 3.6.2:
Isothermal saturation method / 3.6.2.1:
Potentiometric titration method / 3.6.2.2:
Sequential addition method / 3.6.2.3:
Regularities of oxide solubilities in melts based on alkali and alkaline-earth metal halides / Part 7:
Molten alkali-metal halides and their mixtures / 3.7.1:
KCl-LiCl (0.41:0.59) eutectic mixture / 3.7.1.1:
KCl-NaCl (0.50:0.50) equimolar mixture / 3.7.1.2:
CsCl-KCl-NaCl (0.455:0.245:0.30) eutectic / 3.7.1.3:
CsBr-KBr (0.66:0.34) melt / 3.7.1.4:
Molten CsI, 700[degree]C / 3.7.1.5:
Molten potassium halides / 3.7.1.6:
Other solvents based on alkali-metal halides / 3.7.1.7:
Oxide solubilities in melts based on alkali- and alkaline-earth metal halides / 3.7.2:
Solubilities of alkali earth metal carbonates in KCl-NaCl eutectic / 3.7.3:
Afterword / 3.7.4:
References
Formula Index
Subject Index
List of symbols
Introduction
Homogeneous acid-base equilibria and acidity scales in ionic melts / 1:
96.
図書
Jeremy W. Dale and Simon F. Park
出版情報:
Chichester, West Sussex : Wiley-Blackwell, 2010 xii, 388 p. ; 25 cm
子書誌情報:
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Preface
Nucleic Acid Structure and Function / 1:
Structure of nucleic acids / 1.1:
DNA / 1.1.1:
RNA / 1.1.2:
Hydrophobic interactions / 1.1.3:
Different forms of the double helix / 1.1.4:
Supercoiling / 1.1.5:
Denaturation and hybridization / 1.1.6:
Orientation of nucleic acid strands / 1.1.7:
Replication of DNA / 1.2:
Unwinding and rewinding / 1.2.1:
Fidelity of replication; proofreading / 1.2.2:
Chromosome replication and cell division / 1.3:
DNA repair / 1.4:
Mismatch repair / 1.4.1:
Excision repair / 1.4.2:
Recombination (post-replication) repair / 1.4.3:
SOS repair / 1.4.4:
Gene expression / 1.5:
Transcription / 1.5.1:
Translation / 1.5.2:
Post-translational events / 1.5.3:
Gene organization / 1.6:
Mutation and Variation / 2:
Variation and evolution / 2.1:
Fluctuation test / 2.1.1:
Replica plating / 2.1.2:
Directed mutation in bacteria? / 2.1.3:
Types of mutation / 2.2:
Point mutations / 2.2.1:
Conditional mutants / 2.2.2:
Variation due to larger-scale DNA alterations / 2.2.3:
Extrachromosomal agents and horizontal gene transfer / 2.2.4:
Recombination / 2.3:
A model of the general (homologous) recombination process / 2.3.1:
Enzymes involved in recombination / 2.3.2:
Phenotypes / 2.4:
Restoration of phenotype / 2.4.1:
Mechanisms of mutation / 2.5:
Spontaneous mutation / 2.5.1:
Chemical mutagens / 2.5.2:
Ultraviolet irradiation / 2.5.3:
Isolation and identification of mutants / 2.6:
Mutation and selection / 2.6.1:
Isolation of other mutants / 2.6.2:
Molecular methods / 2.6.4:
Regulation of Gene Expression / 3:
Gene copy number / 3.1:
Transcriptional control / 3.2:
Promoters / 3.2.1:
Terminators, attenuators and anti-terminators / 3.2.2:
Induction and repression: regulatory proteins / 3.2.3:
Two-component regulatory systems / 3.2.4:
Global regulatory systems / 3.2.5:
Quorum sensing / 3.2.6:
Translational control / 3.3:
Ribosome binding / 3.3.1:
Codon usage / 3.3.2:
Stringent response / 3.3.3:
Regulatory RNA / 3.3.4:
Phase variation / 3.4:
Genetics of Bacteriophages / 4:
Bacteriophage structure / 4.1:
Single-strand DNA bacteriophages / 4.2:
ΦX174 / 4.2.1:
M13 / 4.2.2:
RNA-containing phages: MS2 / 4.3:
Double-stranded DNA phages / 4.4:
Bacteriophage T4 / 4.4.1:
Bacteriophage λ / 4.4.2:
Lytic and lysogenic regulation of bacteriophage λ / 4.4.3:
Restriction and modification / 4.5:
Bacterial resistance to phage attack / 4.6:
Complementation and recombination / 4.7:
Why are bacteriophages important? / 4.8:
Phage typing / 4.8.1:
Phage therapy / 4.8.2:
Phage display / 4.8.3:
Phages in the natural environment / 4.8.4:
Bacterial virulence and phage conversion / 4.8.5:
Plasmids / 5:
Some bacterial characteristics are determined by plasmids / 5.1:
Antibiotic resistance / 5.1.1:
Colicins and bacteriocins / 5.1.2:
Virulence determinants / 5.1.3:
Plasmids in plant-associated bacteria / 5.1.4:
Metabolic activities / 5.1.5:
Molecular properties of plasmids / 5.2:
Plasmid replication and control / 5.2.1:
Partitioning / 5.2.2:
Host range / 5.2.3:
Plasmid incompatibility / 5.2.4:
Plasmid stability / 5.3:
Plasmid integrity / 5.3.1:
Differential growth rate / 5.3.2:
Associating a plasmid with a phenotype / 5.4:
Gene Transfer / 6:
Transformation / 6.1:
Conjugation / 6.2:
Mechanism of conjugation / 6.2.1:
The F plasmid / 6.2.2:
Conjugation in other bacteria / 6.2.3:
Transduction / 6.3:
Specialized transduction / 6.3.1:
Consequences of recombination / 6.4:
Site-specific and non-homologous (illegitimate) recombination / 6.4.2:
Mosaic genes and chromosome plasticity / 6.5:
Genomic Plasticity: Movable Genes and Phase Variation / 7:
Insertion sequences / 7.1:
Structure of insertion sequences / 7.1.1:
Occurrence of insertion sequences / 7.1.2:
Transposons / 7.2:
Structure of transposons / 7.2.1:
Integrons / 7.2.2:
ISCR elements / 7.2.3:
Mechanisms of transposition / 7.3:
Replicative transposition / 7.3.1:
Non-replicative (conservative) transposition / 7.3.2:
Regulation of transposition / 7.3.3:
Activation of genes by transposable elements / 7.3.4:
Mu: A transposable bacteriophage / 7.3.5:
Conjugative transposons / 7.3.6:
Variation mediated by simple DNA inversion / 7.4:
Variation mediated by nested DNA inversion / 7.4.2:
Antigenic variation in the gonococcus / 7.4.3:
Phase variation by slipped-strand mispairing / 7.4.4:
Phase variation mediated by differential DNA methylation / 7.4.5:
Clustered regularly interspersed short palindromic repeats / 7.5:
Genetic Modification: Exploiting the Potential of Bacteria / 8:
Strain development / 8.1:
Generation of variation / 8.1.1:
Selection of desired variants / 8.1.2:
Overproduction of primary metabolites / 8.2:
Simple pathways / 8.2.1:
Branched pathways / 8.2.2:
Overproduction of secondary metabolites / 8.3:
Gene cloning / 8.4:
Cutting and joining DNA / 8.4.1:
Plasmid vectors / 8.4.2:
Bacteriophage λ vectors / 8.4.3:
Cloning larger fragments / 8.4.4:
Bacteriophage M13 vectors / 8.4.5:
Gene libraries / 8.5:
Construction of genomic libraries / 8.5.1:
Screening a gene library / 8.5.2:
Cloning PCR products / 8.5.3:
Construction of a cDNA library / 8.5.4:
Products from cloned genes / 8.6:
Expression vectors / 8.6.1:
Making new genes / 8.6.2:
Other bacterial hosts / 8.6.3:
Novel vaccines / 8.6.4:
Other uses of gene technology / 8.7:
Genetic Methods for Investigating Bacteria / 9:
Metabolic pathways / 9.1:
Complementation / 9.1.1:
Cross-feeding / 9.1.2:
Microbial physiology / 9.2:
Reporter genes / 9.2.1:
Chromatin immunoprecipitation / 9.2.2:
Cell division / 9.2.3:
Motility and chemotaxis / 9.2.4:
Cell differentiation / 9.2.5:
Bacterial virulence / 9.3:
Wide-range mechanisms of bacterial pathogenesis / 9.3.1:
Detection of virulence genes / 9.3.2:
Specific mutagenesis / 9.4:
Gene replacement / 9.4.1:
Antisense RNA / 9.4.2:
Taxonomy, evolution and epidemiology / 9.5:
Molecular taxonomy / 9.5.1:
GC content / 9.5.2:
16 S rRNA / 9.5.3:
Denaturing-gradient gel electrophoresis and temperature-gradient gel electrophoresis / 9.5.4:
Diagnostic use of PCR / 9.5.5:
Molecular epidemiology / 9.5.6:
Gene Mapping to Genomics and Beyond / 10:
Gene mapping / 10.1:
Conjugational analysis / 10.1.1:
Restriction mapping and pulsed-field gel electrophoresis / 10.1.2:
DNA sequence determination / 10.2:
Sanger sequencing / 10.2.1:
Dye terminator sequencing / 10.2.2:
Pyrosequencing / 10.2.3:
Massively parallel sequencing / 10.2.4:
Genome sequencing / 10.3:
Genome-sequencing strategies / 10.3.1:
Relating sequence to function / 10.3.2:
Metagenomics / 10.3.3:
Comparative genomics / 10.4:
Microarrays / 10.4.1:
Analysis of gene expression / 10.5:
Transcriptional analysis / 10.5.1:
Translational analysis / 10.5.2:
Metabolomics / 10.6:
Systems biology and synthetic genomics / 10.7:
Systems biology / 10.7.1:
Synthetic genomics / 10.7.2:
Conclusion / 10.8:
Further Reading / Appendix A:
Abbreviations Used / Appendix B:
Glossary / Appendix C:
Enzymes and other Proteins / Appendix D:
Genes / Appendix E:
Standard Genetic Code / Appendix F:
Bacterial Species / Appendix G:
Index
?X174
Bacteriophage ?
Lytic and lysogenic regulation of bacteriophage ?
Bacteriophage ? vectors
Preface
Nucleic Acid Structure and Function / 1:
Structure of nucleic acids / 1.1:
97.
図書
Larry L. Peterson & Bruce S. Davie
目次情報:
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Foreword
Foreword to the First Edition
Preface / Chapter 1:
Foundation
Direct Link Networks / 1:
Problem: Building a Network / Chapter 3:
Packet Switching
Internetworking / 1.1:
Applications
End-to-End Protocols / Chapter 5:
Requirements / Chapter 6:
Congestion Control & Resource Allocation
End-to-end Data / 1.2.1:
Connectivity
Security / Chapter 8:
Cost-Effective Resource Sharing / Chapter 9:
Support for Common Services / 1.2.3:
Network Architecture / 1.3:
Layering and Protocols / 1.3.1:
OSI Architecture / 1.3.2:
Internet Architecture / 1.3.3:
Implementing Network Software / 1.4:
Application Programming Interface (Sockets) / 1.4.1:
Example Application / 1.4.2:
Protocol Implementation Issues / 1.4.3:
Performance / 1.5:
Bandwidth and Latency / 1.5.1:
Delay x Bandwidth Product / 1.5.2:
High-Speed Networks / 1.5.3:
Application Performance Needs / 1.5.4:
Summary / 1.6:
Open Issue: Ubiquitous Networking
Further Reading
Exercises
Problem: Physically Connecting Hosts / 2:
Hardware Building Blocks / 2.1:
Nodes / 2.1.1:
Links / 2.1.2:
Encoding (NRZ, NRZI, Manchester, 4B/5B) / 2.2:
Framing / 2.3:
Byte-Oriented Protocols (BISYNC, PPP, DDCMP) / 2.3.1:
Bit-Oriented Protocols (HDLC) / 2.3.2:
Clock-Based Framing (SONET) / 2.3.3:
Error Detection / 2.4:
Two-Dimensional Parity / 2.4.1:
Internet Checksum Algorithm / 2.4.2:
Cyclic Redundancy Check / 2.4.3:
Reliable Transmission / 2.5:
Stop-and-Wait / 2.5.1:
Sliding Window / 2.5.2:
Concurrent Logical Channels / 2.5.3:
Ethernet (802.3) / 2.6:
Physical Properties / 2.6.1:
Access Protocol / 2.6.2:
Experience with Ethernet / 2.6.3:
Token Rings (802.5, FDDI) / 2.7:
Token Ring Media Access Control / 2.7.1:
Token Ring Maintenance / 2.7.3:
Frame Format / 2.7.4:
FDDI / 2.7.5:
Wireless (802.11) / 2.8:
Collision Avoidance / 2.8.1:
Distribution System / 2.8.3:
Network Adaptors / 2.8.4:
Components / 2.9.1:
View from the Host / 2.9.2:
Memory Bottleneck / 2.9.3:
Open Issue: Does It Belong in Hardware? / 2.10:
Problem: Not All Networks Are Directly Connected / 3:
Switching and Forwarding / 3.1:
Datagrams / 3.1.1:
Virtual Circuit Switching / 3.1.2:
Source Routing / 3.1.3:
Bridges and LAN Switches / 3.2:
Learning Bridges / 3.2.1:
Spanning Tree Algorithm / 3.2.2:
Broadcast and Multicast / 3.2.3:
Limitations of Bridges / 3.2.4:
Cell Switching (ATM) / 3.3:
Cells / 3.3.1:
Segmentation and Reassembly / 3.3.2:
Virtual Paths / 3.3.3:
Physical Layers for ATM / 3.3.4:
ATM in the LAN / 3.3.5:
Implementation and Performance / 3.4:
Ports / 3.4.1:
Fabrics / 3.4.2:
Open Issue: The Future of ATM / 3.5:
Problem: There Is More Than One Network / 4:
Simple Internetworking (IP) / 4.1:
What Is an Internetwork? / 4.1.1:
Service Model / 4.1.2:
Global Addresses / 4.1.3:
Datagram Forwarding in IP / 4.1.4:
Address Translation (ARP) / 4.1.5:
Host Configuration (DHCP) / 4.1.6:
Error Reporting (ICMP) / 4.1.7:
Virtual Networks and Tunnels / 4.1.8:
Routing / 4.2:
Network as a Graph / 4.2.1:
Distance Vector (RIP) / 4.2.2:
Link State (OSPF) / 4.2.3:
Metrics / 4.2.4:
Routing for Mobile Hosts / 4.2.5:
Global Internet / 4.3:
Subnetting / 4.3.1:
Classless Routing (CIDR) / 4.3.2:
Interdomain Routing (BGP) / 4.3.3:
Routing Areas / 4.3.4:
IP Version 6 (IPv6) / 4.3.5:
Multicast / 4.4:
Link-State Multicast / 4.4.1:
Distance-Vector Multicast / 4.4.2:
Protocol Independent Multicast (PIM) / 4.4.3:
Multiprotocol Label Switching (MPLS) / 4.5:
Destination-Based Forwarding / 4.5.1:
Explicit Routing / 4.5.2:
Virtual Private Networks and Tunnels / 4.5.3:
Open Issue: Deployment of IPV6 / 4.6:
Problem: Getting Processess to Communicate / 5:
Simple Demultiplexer (UDP) / 5.1:
Reliable Byte Stream (TCP) / 5.2:
End-to-End Issues / 5.2.1:
Segment Format / 5.2.2:
Connection Establishment and Termination / 5.2.3:
Sliding Window Revisited / 5.2.4:
Triggering Transmission / 5.2.5:
Adaptive Retransmission / 5.2.6:
Record Boundaries / 5.2.7:
TCP Extensions / 5.2.8:
Alternative Design Choices / 5.2.9:
Remote Procedure Call / 5.3:
Bulk Transfer (BLAST) / 5.3.1:
Request/Reply (CHAN) / 5.3.2:
Dispatcher (SELECT) / 5.3.3:
Putting It All Together (SunRPC, DCE) / 5.3.4:
Open Issue: Application-Specific Protocols / 5.4:
Congestion Control and Resource Allocation / 6:
Problem: Allocating Resources
Issues in Resource Allocation / 6.1:
Network Model / 6.1.1:
Taxonomy / 6.1.2:
Evaluation Criteria / 6.1.3:
Queuing Disciplines / 6.2:
FIFO / 6.2.1:
Fair Queuing / 6.2.2:
TCP Congestion Control / 6.3:
Additive Increase/Multiplicative Decrease / 6.3.1:
Slow Start / 6.3.2:
Fast Retransmit and Fast Recovery / 6.3.3:
Congestion-Avoidance Mechanisms / 6.4:
DECbit / 6.4.1:
Random Early Detection (RED) / 6.4.2:
Source-Based Congestion Avoidance / 6.4.3:
Quality of Service / 6.5:
Application Requirements / 6.5.1:
Integrated Services (RSVP) / 6.5.2:
Differentiated Services (EF, AF) / 6.5.3:
ATM Quality of Service / 6.5.4:
Equation-Based Congestion Control / 6.5.5:
Open Issue: Inside versus Outside the Network / 6.6:
End-to-End Data / 7:
Problem: What Do We Do with the Data?
Presentation Formatting / 7.1:
Examples (XDR, ASN. 1, NDR) / 7.1.1:
Markup Languages (XML) / 7.1.3:
Data Compression / 7.2:
Lossless Compression Algorithms / 7.2.1:
Image Compression (JPEG) / 7.2.2:
Video Compression (MPEG) / 7.2.3:
Transmitting MPEG over a Network / 7.2.4:
Audio Compression (MP3) / 7.2.5:
Open Issue: Computer Networks Meet Consumer Electronics / 7.3:
Network Security / 8:
Problem: Securing the Data
Cryptographic Algorithms / 8.1:
Secret Key Encryption (DES) / 8.1.1:
Public Key Encryption (RSA) / 8.1.3:
Message Digest Algorithms (MD5) / 8.1.4:
Security Mechanisms / 8.1.5:
Authentication Protocols / 8.2.1:
Message Integrity Protocols / 8.2.2:
Public Key Distribution (X.509) / 8.2.3:
Example Systems / 8.3:
Pretty Good Privacy (PGP) / 8.3.1:
Secure Shell (SSH) / 8.3.2:
Transport Layer Security (TLS, SSL, HTTPS) / 8.3.3:
IP Security (IPSEC) / 8.3.4:
Firewalls / 8.4:
Filter-Based Firewalls / 8.4.1:
Proxy-Based Firewalls / 8.4.2:
Limitations / 8.4.3:
Open Issue: Denial-of-Service Attacks / 8.5:
Problem: Applications Need Their Own Protocols / 9:
Name Service (DNS) / 9.1:
Domain Hierarchy / 9.1.1:
Name Servers / 9.1.2:
Name Resolution / 9.1.3:
Traditional Applications / 9.2:
Electronic Mail (SMTP, MIME, IMAP) / 9.2.1:
World Wide Web (HTTP) / 9.2.2:
Network Management (SNMP) / 9.2.3:
Multimedia Applications / 9.3:
Real-time Transport Protocol (RTP) / 9.3.1:
Session Control and Call Control (SDP, SIP, H.323) / 9.3.2:
Overlay Networks / 9.4:
Routing Overlays / 9.4.1:
Peer-to-Peer Networks / 9.4.2:
Content Distribution Networks / 9.4.3:
Open Issue: New Network Artichitecture / 9.5:
Glossary
Bibliography
Solutions to Selected Exercises
Index
About the Authors
Foreword
Foreword to the First Edition
Preface / Chapter 1:
98.
図書
Brendan J. Frey
目次情報:
続きを見る
Preface
Introduction / 1:
A probabilistic perspective / 1.1:
Pattern classification / 1.1.1:
Unsupervised learning / 1.1.2:
Data compression / 1.1.3:
Channel coding / 1.1.4:
Probabilistic inference / 1.1.5:
Graphical models: Factor graphs, Markov random fields and Bayesian belief networks / 1.2:
Factor graphs / 1.2.1:
Markov random fields / 1.2.2:
Bayesian networks / 1.2.3:
Ancestral simulation in Bayesian networks / 1.2.4:
Dependency separation in Bayesian networks / 1.2.5:
Example 1: Recursive convolutional codes and turbocodes / 1.2.6:
Parameterized Bayesian networks / 1.2.7:
Example 2: The bars problem / 1.2.8:
Organization of this book / 1.3:
Probabilistic Inference in Graphical Models / 2:
Exact inference using probability propagation (the sum-product algorithm) / 2.1:
The generalized forward-backward algorithm / 2.1.1:
The burglar alarm problem / 2.1.2:
Probability propagation (the sum-product algorithm) / 2.1.3:
Grouping and duplicating variables in Bayesian networks / 2.1.4:
Exact inference in multiply-connected networks is NP-hard / 2.1.5:
Monte Carlo inference: Gibbs sampling and slice sampling / 2.2:
Inference by ancestral simulation in Bayesian networks / 2.2.1:
Gibbs sampling / 2.2.2:
Gibbs sampling for the burglar alarm problem / 2.2.3:
Slice sampling for continuous variables / 2.2.4:
Variational inference / 2.3:
Choosing the distance measure / 2.3.1:
Choosing the form of the variational distribution / 2.3.2:
Variational inference for the burglar alarm problem / 2.3.3:
Bounds and extended representations / 2.3.4:
Helmholtz machines / 2.4:
Factorial recognition networks / 2.4.1:
Nonfactorial recognition networks / 2.4.2:
The stochastic Helmholtz machine / 2.4.3:
A recognition network that solves the burglar alarm problem / 2.4.4:
Pattern Classification / 3:
Bayesian networks for pattern classification / 3.1:
Autoregressive networks / 3.2:
The logistic autoregressive network / 3.2.1:
MAP estimation for autoregressive networks / 3.2.2:
Scaled priors in logistic autoregressive networks / 3.2.3:
Ensembles of autoregressive networks / 3.2.4:
Estimating latent variable models using the EM algorithm / 3.3:
The expectation maximization (EM) algorithm / 3.3.1:
The generalized expectation maximization algorithm / 3.3.2:
Multiple-cause networks / 3.4:
Estimation by iterative probability propagation / 3.4.1:
Estimation by Gibbs sampling / 3.4.2:
Generalized EM using variational inference / 3.4.3:
Hierarchical networks / 3.4.4:
Ensembles of networks / 3.4.6:
Classification of handwritten digits / 3.5:
Logistic autoregressive classifiers: LARC-1,ELARC-1 / 3.5.1:
The Gibbs machine: GM-1 / 3.5.2:
The mean field Bayesian network: MFBN-1 / 3.5.3:
Stochastic Helmholtz machines: SHM-1, SHM-2, ESHM-1 / 3.5.4:
The classification and regression tree: CART-1 / 3.5.5:
The naive Bayes classifier: NBAYESC-1 / 3.5.6:
The k-nearest neighbor classifier: KNN-CLASS-1 / 3.5.7:
Results / 3.5.8:
Unsupervised Learning / 4:
Extracting structure from images using the wake-sleep algorithm / 4.1:
Wake-sleep parameter estimation / 4.1.1:
Automatic clean-up of noisy images / 4.1.2:
Wake-sleep estimation without positive parameter constraints / 4.1.3:
How hard is the bars problem? / 4.1.4:
Simultaneous extraction of continuous and categorical structure / 4.2:
Continuous sigmoidal Bayesian networks / 4.2.1:
Inference using slice sampling / 4.2.2:
Parameter estimation using slice sampling / 4.2.3:
Nonlinear Gaussian Bayesian networks (NLGBNs) / 4.3:
The model / 4.3.1:
Variational inference and learning / 4.3.2:
Results on the continuous stereo disparity problem / 4.3.3:
Pattern classification using the variational bound / 4.3.4:
Data Compression / 5:
Fast compression with Bayesian networks / 5.1:
Communicating extra information through the codeword choice / 5.2:
Example: A simple mixture model / 5.2.1:
The optimal bits-back coding rate / 5.2.2:
Suboptimal bits-back coding / 5.2.3:
Relationship to maximum likelihood estimation / 5.3:
The "bits-back" coding algorithm / 5.4:
The bits-back coding algorithm with feedback / 5.4.1:
Queue drought in feedback encoders / 5.4.2:
Experimental results / 5.5:
Bits-back coding with a multiple-cause model / 5.5.1:
Compressing handwritten digits / 5.5.2:
Integrating over model parameters using bits-back coding / 5.6:
Channel Coding / 6:
Review: Simplifying the playing field / 6.1:
Additive white Gaussian noise (AWGN) / 6.1.1:
Capacity of an AWGN channel / 6.1.2:
Signal constellations / 6.1.3:
Linear binary codes can get us to capacity / 6.1.4:
Bit error rate (BER) and signal-to-noise ratio (Eb/N0) / 6.1.5:
Capacity of an AWGN channel with binary signalling / 6.1.6:
Achievable BER for an AWGN channel with binary signalling / 6.1.7:
Graphical models for error correction: Turbocodes, low-density parity-check codes and more / 6.2:
Hamming codes / 6.2.1:
Convolutional codes / 6.2.2:
Decoding convolutional codes by probability propagation / 6.2.3:
Turbocodes: parallel concatenated convolutional codes / 6.2.4:
Serially-concatenated convolutional codes, low-density parity-check codes, and product codes / 6.2.5:
"A code by any other network would not decode as sweetly" / 6.3:
Trellis-constrained codes (TCCs) / 6.4:
Homogeneous trellis-constrained codes / 6.4.1:
Ring-connected trellis-constrained codes / 6.4.2:
Decoding complexity of iterative decoders / 6.5:
Parallel iterative decoding / 6.6:
Concurrent turbodecoding / 6.6.1:
Speeding up iterative decoding by detecting variables early / 6.6.2:
Early detection / 6.7.1:
Early detection for turbocodes: Trellis splicing / 6.7.2:
Future Research Directions / 6.7.3:
Modularity and abstraction / 7.1:
Faster inference and learning / 7.2:
Scaling up to the brain / 7.3:
Improving model structures / 7.4:
Iterative decoding / 7.5:
Iterative decoding in the real world / 7.6:
Unification / 7.7:
References
Index
Preface
Introduction / 1:
A probabilistic perspective / 1.1:
99.
図書
editor, G. Chiarotti ; contributors, C. Calandra, ... [et al.]
目次情報:
続きを見る
Introductory material
General introduction / G. Chiarotti1:
Motivations for a Landolt-Börnstein volume on surface physics / 1.1:
Outline of the volume / 1.2:
How to consult the volume / 1.3:
List of frequently used symbols and abbreviations / 1.4:
Conversion tables / 1.5:
Crystal structures and bulk lattice parameters of materials quoted in the volume / 1.6:
References for 1 / 1.7:
The structure of surfaces (See Vol.24A) / 2:
Electronic structure of surfaces / 3:
Electronic structure of surfaces: metals / K. Jakobi3.1:
Introduction / 3.1.1:
General remarks / 3.1.1.1:
The jellium model / 3.1.1.2:
Surface states / 3.1.1.3:
Image states / 3.1.1.4:
Surface Fermi-surfaces / 3.1.1.5:
Surface plasmon / 3.1.1.6:
Experimental methods / 3.1.1.7:
Data / 3.1.2:
Arrangement of the data / 3.1.2.1:
Data on the jellium model / 3.1.2.2:
Surface states and image states / 3.1.2.3:
Theoretical studies on image states / 3.1.2.3.1:
Comparative studies of image states and surface states / 3.1.2.3.2:
Work function data / 3.1.2.4:
Surface core-level shift data / 3.1.2.5:
SCLS - Theory / 3.1.2.5.1:
SCLS - Experimental results / 3.1.2.5.2:
Group IA (alkali metals): Li, Na, K, Rb, Cs / 3.1.2.6:
Group IIA (alkaline earth metals): Be, Mg, Ca, Sr, Ba / 3.1.2.7:
Group IB (noble metals): Cu, Ag, Au / 3.1.2.8:
Group IIB: Zn, Cd / 3.1.2.9:
Group IIIA: Al, In / 3.1.2.10:
Group IVA: Pb, and Group VA: Bi / 3.1.2.11:
3d transition metals: Sc, Ti, Cr, Fe, Co, Ni / 3.1.2.12:
4d transition metals: Y, Nb, Mo, Ru, Rh, Pd / 3.1.2.13:
5d transition metals: La, Hf, Ta, W, Ir,.Pt / 3.1.2.14:
Lanthanides (4f) (rare-earth metals): Ce, Sm, Gd, Tb, Dy, Ho, Yb / 3.1.2.15:
Actinides (5f): Th, Pu, Am / 3.1.2.16:
References for 3.1 / 3.1.3:
Electronic structure of surfaces: semiconductors / C. Calandra ; F. Manghi3.2:
Preliminary remarks / 3.2.1:
Theory / 3.2.1.2:
Arrangement of data / 3.2.2:
Surfaces of covalent semiconductors: C, Si, Ge / 3.2.2.2:
(110) surfaces of partially ionic compounds: GaAs, GaP, GaSb, InAs, InP, InSb, CdTe, ZnSe / 3.2.2.3:
GaAs polar surfaces / 3.2.2.4:
References for 3.2 / 3.2.3:
Vibrational and excitational properties of surfaces / 4:
Surface phonons (R.F. WALLIS, S.Y. TONG) / 4.1:
Background and general layout / 4.1.1:
Surface acoustic waves / 4.1.1.2:
Isotropic media / 4.1.1.2.1:
Anisotropic media / 4.1.1.2.2:
Microscopic approach to surface phonons / 4.1.1.3:
Lattice vectors, reciprocal lattice vectors / 4.1.1.3.1:
Dynamical matrix and normal modes of vibration / 4.1.1.3.2:
Characterization of surface modes of vibration / 4.1.1.3.3:
General remarques about surface force constants and surface modes of vibration / 4.1.1.3.4:
Surface phonons in specific categories of materials / 4.1.1.3.5:
Insulators (ionic bonding) / 4.1.1.3.5.1:
Semiconductors (covalent bonding) / 4.1.1.3.5.2:
Metals / 4.1.1.3.5.3:
Inelastic helium atom scattering / 4.1.1.4:
Inelastic electron scattering / 4.1.1.4.2:
Correspondence of units / 4.1.1.5:
Theoretical models / 4.1.1.6:
References for 4.1 / 4.1.2:
Surface polaritons (A.A. MARADUDIN) / 4.2:
Surface polaritons in two-layer systems / 4.2.1:
Two isotropic media / 4.2.1.2.1:
An anisotropic medium in contact with an isotropic medium / 4.2.1.2.2:
Surface polaritons on magnetic media / 4.2.1.2.3:
Experimental determinations of surface polariton dispersion curves / 4.2.1.3:
A uniaxial crystal in contact with an isotropic medium / 4.2.2:
A biaxial crystal in contact with an isotropic medium / 4.2.2.3:
Surface polaritons in a magnetic field / 4.2.2.4:
An organic crystal in contact with an isotropic medium / 4.2.2.5:
References for 4.2 / 4.2.3:
Magnetic properties of single crystal surfaces (U. GRADMANN) / 5:
Methods and definitions / 5.1:
Surface magnetization at fixed temperatures / 5.2:
Magnetic hyperfine fields near surfaces at fixed temperatures / 5.2.2:
Temperature dependence of magnetic order near surfaces / 5.2.3:
Surface magnetization at low temperatures / 5.2.3.1:
Critical behavior of surface magnetization; live layers / 5.2.3.2:
Magnetic surface anisotropies / 5.2.4:
References for 5 / 5.3:
General index (See Vol.24D) Introduction
Index of surfaces
Introductory material
General introduction / G. Chiarotti1:
Motivations for a Landolt-Börnstein volume on surface physics / 1.1:
100.
図書
Gary E. Bowman
出版情報:
Oxford : Oxford University Press, 2008 xi, 208 p. ; 24 cm
子書誌情報:
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Preface
Introduction: Three Worlds / 1:
Worlds 1 and 2 / 1.1:
World 3 / 1.2:
Problems / 1.3:
The Quantum Postulates / 2:
Postulate 1: The Quantum State / 2.1:
Postulate 2: Observables, Operators, and Eigenstates / 2.2:
Postulate 3: Quantum Superpositions / 2.3:
Discrete Eigenvalues / 2.3.1:
Continuous Eigenvalues / 2.3.2:
Closing Comments / 2.4:
What Is a Quantum State? / 2.5:
Probabilities, Averages, and Uncertainties / 3.1:
Probabilities / 3.1.1:
Averages / 3.1.2:
Uncertainties / 3.1.3:
The Statistical Interpretation / 3.2:
Bohr, Einstein, and Hidden Variables / 3.3:
Background / 3.3.1:
Fundamental Issues / 3.3.2:
Einstein Revisited / 3.3.3:
The Structure of Quantum States / 3.4:
Mathematical Preliminaries / 4.1:
Vector Spaces / 4.1.1:
Function Spaces / 4.1.2:
Dirac's Bra-ket Notation / 4.2:
Bras and Kets / 4.2.1:
Labeling States / 4.2.2:
The Scalar Product / 4.3:
Quantum Scalar Products / 4.3.1:
Discussion / 4.3.2:
Representations / 4.4:
Basics / 4.4.1:
Superpositions and Representations / 4.4.2:
Representational Freedom / 4.4.3:
Operators / 4.5:
Introductory Comments / 5.1:
Hermitian Operators / 5.2:
Adjoint Operators / 5.2.1:
Hermitian Operators: Definition and Properties / 5.2.2:
Wavefunctions and Hermitian Operators / 5.2.3:
Projection and Identity Operators / 5.3:
Projection Operators / 5.3.1:
The Identity Operator / 5.3.2:
Unitary Operators / 5.4:
Matrix Mechanics / 5.5:
Elementary Matrix Operations / 6.1:
Vectors and Scalar Products / 6.1.1:
Matrices and Matrix Multiplication / 6.1.2:
Vector Transformations / 6.1.3:
States as Vectors / 6.2:
Operators as Matrices / 6.3:
An Operator in Its Eigenbasis / 6.3.1:
Matrix Elements and Alternative Bases / 6.3.2:
Change of Basis / 6.3.3:
Adjoint, Hermitian, and Unitary Operators / 6.3.4:
Eigenvalue Equations / 6.4:
Commutators and Uncertainty Relations / 6.5:
The Commutator / 7.1:
Definition and Characteristics / 7.1.1:
Commutators in Matrix Mechanics / 7.1.2:
The Uncertainty Relations / 7.2:
Uncertainty Products / 7.2.1:
General Form of the Uncertainty Relations / 7.2.2:
Interpretations / 7.2.3:
Reflections / 7.2.4:
Angular Momentum / 7.3:
Angular Momentum in Classical Mechanics / 8.1:
Basics of Quantum Angular Momentum / 8.2:
Operators and Commutation Relations / 8.2.1:
Eigenstates and Eigenvalues / 8.2.2:
Raising and Lowering Operators / 8.2.3:
Physical Interpretation / 8.3:
Measurements / 8.3.1:
Relating L[superscript 2] and L[subscript z] / 8.3.2:
Orbital and Spin Angular Momentum / 8.4:
Orbital Angular Momentum / 8.4.1:
Spin Angular Momentum / 8.4.2:
Review / 8.5:
The Time-Independent Schrodinger Equation / 8.6:
An Eigenvalue Equation for Energy / 9.1:
Using the Schrodinger Equation / 9.2:
Conditions on Wavefunctions / 9.2.1:
An Example: the Infinite Potential Well / 9.2.2:
Interpretation / 9.3:
Energy Eigenstates in Position Space / 9.3.1:
Overall and Relative Phases / 9.3.2:
Potential Barriers and Tunneling / 9.4:
The Step Potential / 9.4.1:
The Step Potential and Scattering / 9.4.2:
Tunneling / 9.4.3:
What's Wrong with This Picture? / 9.5:
Why Is the State Complex? / 9.6:
Complex Numbers / 10.1:
Polar Form / 10.1.1:
Argand Diagrams and the Role of the Phase / 10.1.3:
The Phase in Quantum Mechanics / 10.2:
Phases and the Description of States / 10.2.1:
Phase Changes and Probabilities / 10.2.2:
Unitary Operators Revisited / 10.2.3:
Unitary Operators, Phases, and Probabilities / 10.2.4:
Example: A Spin 1/2 System / 10.2.5:
Wavefunctions / 10.3:
Time Evolution / 10.4:
The Time-Dependent Schrodinger Equation / 11.1:
How Time Evolution Works / 11.2:
Time Evolving a Quantum State / 11.2.1:
Unitarity and Phases Revisited / 11.2.2:
Expectation Values / 11.3:
Time Derivatives / 11.3.1:
Constants of the Motion / 11.3.2:
Energy-Time Uncertainty Relations / 11.4:
Conceptual Basis / 11.4.1:
Spin 1/2: An Example / 11.4.2:
What is a Wavefunction? / 11.5:
Eigenstates and Coefficients / 12.1.1:
Representations and Operators / 12.1.2:
Changing Representations / 12.2:
Change of Basis Revisited / 12.2.1:
From x to p and Back Again / 12.2.2:
Gaussians and Beyond / 12.2.3:
Phases and Time Evolution / 12.3:
Free Particle Evolution / 12.3.1:
Wavepackets / 12.3.2:
Bra-ket Notation / 12.4:
Quantum States / 12.4.1:
Eigenstates and Transformations / 12.4.2:
Epilogue / 12.5:
Mathematical Concepts / 12.6:
Complex Numbers and Functions / A.1:
Differentiation / A.2:
Integration / A.3:
Differential Equations / A.4:
Quantum Measurement / B:
The Harmonic Oscillator / C:
Energy Eigenstates and Eigenvalues / C.1:
The Number Operator and its Cousins / C.2:
Photons as Oscillators / C.3:
Unitary Transformations / D:
Finite Transformations and Generators / D.1:
Continuous Symmetries / D.3:
Symmetry Transformations / D.3.1:
Symmetries of Physical Law / D.3.2:
System Symmetries / D.3.3:
Bibliography
Index
Preface
Introduction: Three Worlds / 1:
Worlds 1 and 2 / 1.1:
図書
