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
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:
3.
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:
4.
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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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:
5.
図書
authors, G. Guelachvili, K.Narahari Rao ; editor, G. Guelachvili
目次情報:
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CS2 (SCS).
CS2+ (SCS+).
CS2++ (SCS++).
CSe2 (SeCSe).
C2N (CCN).
C2N (CNC).
C2N+ (CCN+).
C2N+ (CNC+).
CS2 (SCS).
CS2+ (SCS+).
CS2++ (SCS++).
6.
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:
7.
図書
editor, H.P.J. Wijn ; contributors, D. Bonnenberg ... [et al.]
目次情報:
続きを見る
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:
8.
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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目次情報:
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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
9.
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
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10.
図書
edited with translation and explanatory notes by S.D. Joshi and J.A.F. Roodbergen
11.
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:
12.
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:
13.
図書
Robert Alicki and Mark Fannes
出版情報:
Oxford : Oxford University Press, c2001 xiv, 278 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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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:
14.
図書
editors, Hisham Z. Massoud ... [et al.]
15.
図書
C. Daul ... [et al.] ; Hrsg., H. Fischer
目次情報:
続きを見る
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
16.
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:
17.
図書
[редакция ... В.Г. Озерова ... и др.]
出版情報:
Москва : "Книга", 1927- v. ; 27 cm
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18.
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:
19.
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
20.
図書
editors, Hisham Z. Massoud, Edward H. Poindexter, C. Robert Helms
21.
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:
22.
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:
23.
図書
text, translation and notes by J.A.F. Roodbergen ; edited by S.D. Joshi
24.
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
25.
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:
26.
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:
27.
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
28.
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
29.
図書
edited by Ernst-Rüdiger Olderog
30.
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
31.
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:
32.
図書
Bernhard Westfechtel
目次情報:
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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:
33.
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
34.
図書
Noboru Ono
目次情報:
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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
35.
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:
36.
図書
Nam-Trung Nguyen, Steven T. Wereley
目次情報:
続きを見る
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:
37.
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:
38.
図書
T. Kaneko ; 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
39.
図書
issued by International Institute of Refrigeration ; [editor, Kostadin Fikiin] = edité par Institut International du Froid
40.
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
41.
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
42.
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:
43.
図書
Roel Prins ... [et al]
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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:
44.
図書
P.T. Haromy ... [et al.] ; Herausgeber: W. Saenger
目次情報:
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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:
45.
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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所蔵情報:
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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:
46.
図書
D.L. Anderson ... [et al.] ; Herausgeber, K. Fuchs, H. Soffel
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
47.
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
48.
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
49.
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
50.
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