1.
図書
edited with translation and explanatory notes by S.D. Joshi and J.A.F. Roodbergen
2.
図書
text, translation and notes by J.A.F. Roodbergen ; edited by S.D. Joshi
3.
図書
C. Daul ... [et al.] ; Herausgeber, H. Fischer und K.-H. Hellwege
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The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
4.
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
5.
図書
E. Schudt, G. Weitz ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
Title Page
Preface
Authors
Introduction / 1:
Subject matter / 1.1:
Arrangement of the tables / 1.2:
List of symbols and abbreviations / 1.3:
Index of space-group symbols / 1.4:
Tables / 2:
C1 - C6
C7 - C13
C14 - C19
C20 - C29
C30 - C39
C40 - C48
C50 - C55
C56 - C120
References / 3:
Index of substances / 4:
Commentary / 4.0:
Comprehensive index of substances / 4.1:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Geophysics
Notations, constants, and general relations / J. DemaisonVolume 16:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Magnetic properties of rare earth elements, alloys and compounds / 6:
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of syrnbols and abbreviations / L. Magaard2.4:
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Elements / E. Burzo ; R. Gersdorf ; G. Zibold1.0:
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
Title Page
Preface
Authors
6.
図書
Wolfgang Pies, Alarich Weiss ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
7.
図書
Wolfgang Pies, Alarich Weiss ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
8.
図書
M. Gebhardt, A. Neuhaus ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
9.
図書
K.A. Keller, J. Lange, H. Münzel ; Hrsg., H. Schopper
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
10.
図書
K.A. Keller, J. Lange, H. Münzel ; Hrsg., H. Schopper
目次情報:
続きを見る
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
Landolt-Bornstein
Title Page
Group III: Condensed Matter / Landolt-Börnstein ; H. Fischer0:
Group II: Molecules and Radicals
Contributors
Preface
Geophysics / 2:
Authors / Volume 16:
Notations, constants, and general relations / J. DemaisonVolume 2:
Astronomical instruments
Ferroelectrics and Related Substances
Molecular Constants Mostly from Microwave, Molecular Beam, and Electron Resonance Spectroscopy
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds
Introduction / 6:
Magnetic properties of rare earth elements, alloys and compounds
Geophysics of the Solid Earth, the Moon and the Planets
General introduction
Non-Oxides / 1.1:
Subvolume A
Diamagnetic Molecules / M. Hantel ; W. Huttner1.1 - 1.4:
Ocean waves / Subvolume A:
List of space group symbols for various settings
See Vol.19A
2.3 See Vol.19D1
See Vol.19D1
Title Page, Contributors, Preface
Nucleon nucleon scattering / J.R. Morton
Optical telescopes
3d elements / D. Griller
Alphabetical list of frequently used prototypes / 6.1:
General remarks / H. Kraus1.5:
List of symbols and abbreviations / L. Magaard2.4:
List of syrnbols and abbreviations
2.5 See Vol.19D2
The earth in the planetary system (See Vol. 2A) / H.R. Kirchmayr
Alloys and compounds of 3d elements with main group elements / K.F. Preston ; H. Paul ; J.J.M. FranseI:
Total cross sections / C.-D. Schonwiese2.6:
Solar telescopes
The earth in the planetary system
Carbon-centered radicals: Radical-radical reactions
Literature covered and selection of data / L.A. Mysak1.5.1:
See Vol.19E1
Tables / E. Burzo ; R. Gersdorf1.3:
Elements / G. Zibold
Constants of diamagnetic molecules / 2.7:
Properties of the solid earth
Inorganic radicals
Nonconjugated carbon radicals
AgAlCdS - CuTeYb (See Vol.14B1) / H. WänkeI A:
Climate definition
Total and integrated cross sections for pp, pd and dd scattering / P. Morin2.1 - 2.4:
Photoelectric photometry
Classification and basic features
Arrangement of tables and data / 11.1:
Compounds of rare earth elements and 3d elements
Seismicity and the interior of the earth (See Vol. 2A)
Ti, V, Cr, Mn / 1.1.2:
DyErTe - HoPrS / 6.2:
3d elements and Cu, Ag or Au
Borides
lntroduction / 2.4.1:
Origin of the earth in the solar system / I B:
Qualitative definitions of climate / W. Rosenthal1.1.1.1:
Compounds of rare earth elements and Be, Mg, Zn, Cd or Hg / 4:
See Vol.19B
Total and integrated cross sections for neutrons on protons and nuclei / 3.1:
Photographic emulsions
Self-reactions
HoS - PTeU
Abbreviations and units used for presenting the data / 11.2:
Heat flow and temperature distribution in the earth's interior / 2.7.1:
Definition of ferroelectrics and antiferroelectrics / 1.1.3:
Ti / E. Tiemann ; E. Groten
Carbides
Alkyl radicals / 2.4.1.1:
Wind waves and swell / I C:
PaS - TeZr
The climate system / 1.5.1.2:
Dipole moments / 5:
Total cross sections of antiprotons on protons and deuterons / 1.2.1:
Spectrometers and spectrographs
Cross reactions
Indexes / 6.2.0:
General / 2.7.1.1:
Oceanic and continental heat-flow data / 2.6.1:
Remarks on some fundamental concepts and quantities / 1.6:
Survey
The motion of the earth
V
Definition of the various kinds of magnetism
Hydrides
Hydrogen-centered radicals / 2.4.1.2:
Primary alkyl radicals
List of symbols / I D:
Figures
Crystallography and metallurgy / 1.5.1.2.1:
Oceanic heat flow data (See Vol. 2A)
Differential cross sections and polarization parameters for elastic pp, pd and dd scattering / 1.2.2:
Optical high resolution methods
Relative rate constants
References for 2 and 3 (See Vol.14B1) / 6.2.1:
List of symbols and units / 11.4:
Phase diagrams. Crystal structure / 2.7.1.2:
Symbols and units / 2.2.1.2:
Abbreviations, notation and units
Cr
Spin-glass behaviour and micromagnetism
Diatomic molecules / 2.4.1.3:
Lithium-centered radicals / D.S. Chapman
Noncyclic secondary alkyl radicals
Alphabetical index of mineral and common names / J.P. LorandI E:
References for 11 / 1.5.1.2.2:
Magnetism
Differential cross sections for elastic pp scattering at low momenta / 2.6.2:
X-ray and gamma-ray instruments
Diatomic molecules: Rotational and related constants
List of universal constants / 6.2.2:
Survey of contents / G. Wlodarczak2.7.2:
Mn / 2.3:
Diamagnetism
Climate models (See Vol.4C2)
Continental heat flow data
Beryllium-centered radicals
Noncyclic tertiary alkyl radicals
Carbon-centered radicals: Radical-molecule addition reactions / I F:
The deterministic description of a linear plane wave, its energy and momentum density / 1.1.1.5:
RX compounds / 1.5.1.2.3:
Differential cross sections for elastic pp scattering at high momenta / 2.4.1.3.1:
Infrared techniques
The present global surface climate (See Vol.4C2) / 2.0:
Glossary of general abbreviations
Linear molecules / 2.7.3:
Publications on ferroelectrics / 1.9:
Units and definitions
References for 1.1.1
Paramagnetism
Units / 14:
Boron-centered radicals
Monocyclic alkyl radicals
Linear molecules: Rotational and related constants / II:
The energy density spectrum
Differential cross sections for elastic pd and dd scattering / 1.5.1.2.4:
Radio astronomical receiver systems
Tables of nuclear quadrupole interaction parameters / M.B. Stearns6.2.4:
Data
Orbital motion of the earth
Ferromagnetism
Definitions / 2.7.4:
Carbon-centered radicals
Polycyclic alkyl radicals
Methyl radical
Surface waves in deep water
Specific Surfaces Climates / 1.5.1.2.5:
Symmetric top molecules / 6.4:
Polarization parameters for elastic pp scattering / 2.2.1.2.2:
Positions and time determination, astronomical constants
Oxides (See Vol.16A)
Fe, Co, Ni
Introductory remarks / 6.2.5:
Symmetric top molecules: Rotational and related constants / 2.4.1.3.3:
Primary parameters of the earth's rotational motion in space
Antiferromagnetism / 1.1.2.1:
Measurements / J. Vogt
Nitrogen-centered radicals
σ-electronic carbon radicals
Inorganic crystals other than oxides
Other acyclic hydrocarbon radicals
Surface waves in shallow water
Scope of consideration / 1.5.1.2.6:
Differential cross sections and polarization parameters for np elastic and charge exchange scattering / 2.7.5:
Determination of astronomical latitude and longitude
Nuclear constants of quadrupolar elements / 6.2.6:
Forced nutation / 1.3.0:
Metamagnetism / 1.1.2.2:
X-rich compounds
Continental heat flow literature / 2.4.2:
Oxygen-centered radicals
Vinyl-type radicals
SbSI family
Cycloalkyl radicals
References for 6.2
Physical principles generally governing Specific Surfaces Climates / 1.5.1.3:
Time determination / 2.7.6:
Asymmetric top molecules: Rotational and related constants / 15:
Phase diagrams, lattice constants and elastic moduli
Ratios of nuclear quadrupole moments of isotopic nuclides / 14.3:
J. Demaison
The rotation of the earth / 1.3.1:
Remarks and relations concerning various quantities / D. Olbers1.1.2.3:
Continental heat flow results / 2.4.2.1:
Fluorine-centered radicals
Aryl radicals
HCl family
Inorganic molecules
Cumyl radical
Tables of differential elastic np cross sections (including charge exchange scattering) at low energies / 1.5.1.3.1:
The system of astronomical constants
Paramagnetic properties / 16:
Values of <$$> for the valence states of some neutral atoms / 14.4:
Quadrupole coupling constants / 2.7.7:
Methane, ethane, propane derivatives / 1.3.2:
Tidal dissipation
Internal gravity waves / 1.1.2.4:
Curie-Weiss law
Global heat flow
Sodium-centered radicals
Acyl radicals
NaNO2 family
Alkyl radicals containing heteroatoms
References for 14 / 6.3.0:
Ternary compounds
Differential elastic np cross sections at high energies / 2.4.2.2:
The solar system
Aliphatic molecules with double and triple carbon-bonds / 17:
Spontaneous magnetization, magnetic moments and high-field susceptibility
Atomic quadrupole coupling constants of some elements
The Celestial Ephemeris Pole / 2.7.8:
List of symbols and indices / 1.1.2.5:
Magnetization
References for 2.2.1.2
Magnesium-centered radicals
References for 3.1 and 3.2
KNO3 family
Elemento-organic compounds
Phenyl radicals
References for 2.7 / 6.3.1:
Differential np charge exchange cross sections at high energies / 2.2.2:
The sun
Magnetocrystalline anisotropy constants / 18:
Sternheimer antishielding factor for atoms, free ions and ions in crystals
Radioactive heat production in the continental crust (See Vol. 2A) / 2.8:
Elements with two or three internal rotors / A. Berndt1.3.4:
Bibliography for 1.2
Arrott plots / 1.1.2.6:
Climate variations
Aluminum-centered radicals / H. Oesterreicher2.4.2.3:
PbHPO4 family
Vinyl and acyl radicals
Polarization parameters of elastic np scattering / E.A. Lubimova6.3.2:
The quiet sun
Saturated cyclic compounds / 19:
Magnetostriction coefficients
Transition frequencies between nuclear quadrupole energy levels
Carbon radicals with conjugated &pi-systems / K. Oesterreicher
Observational techniques / 1.1.2.7:
Magnetic anisotropy
Silicon-centered radicals
KDP (KH2 PO4 ) family / 4.1:
Unsaturated cyclic and aromatic compounds
Aromatic radical cations
Temperature profiles in the earth's interior / 6.3.3:
Differential cross sections and polarization of elastic (anti-p)p scattering / 1.2.13:
Solar activity
Form factors, densities and magnetic moments / 20:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
Compounds based on rare earth elements and B
Seismicity and the interior of the earth / 2.4.2.4:
Space-time scales / 1.1.2.8:
High-frequency properties
Information sources
Phosphorus-centered radicals / F.D. Stacey2.8.1:
(NH4 )2 SO4 family / 4.2:
Polymer radicals / 2.1.1:
The planets and their satellites / 6.3.4:
Hyperfine fields, isomer shifts and relaxation time / G. Schneider21:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Binary rare earth borides
Radicals with 3 conjugated π-electrons
Equations of motion / A.L.J. Beckwith1.4.1:
Hall resistivity
Remarks on statistical problems
Heat transport in the earth's interior / 2.10:
Sulfur-centered radicals
NH4 HSO4 family / 4.2.1:
Mechanical data of the planets and satellites / 6.3.5:
Seismicity / 22:
Spin wave properties
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
Allyl and deuterated allyl radicals
Carbon-centered radicals: Fragmentation and rearrangement reactions / 1.4.2:
Kinematics of linear small-scale waves / 1.1.2.10:
Remarks on some concepts of metallurgy
History of paleoclimate and neoclimate before the modern interval
Electrical properties of the earth's interior
Chlorine-centered radicals
(NH4 )3 H(SO4 )2 family / 4.2.2:
Linear and symmetric top moleculesJ. Demaison
General features of the data / 6.3.6:
Physics of the planets and satellites
g factors and ferromagnetic resonance properties / 23:
Nuclear quadrupole resonance data
Alkyl-substituted allyl radicals / U. Schmucker
Spectral models / 1.4.3:
Quenched bulk alloys
History of neoclimate since the modern interval (1659 AD)
Potassium-centered radicals / 2.4.2.6:
NH4 LiSO4 family / 4.2.3:
Table of differential cross sections for elastic (anti-p)p scattering / 6.3.7:
Small bodies in the solar system
Asymmetric top molecules / 24:
Fermi surfaces, band structures, exchange energies and electron spin polarizations
Depth distribution of the electrical conductivity
Allyl radicals containing F, Cl, Br
Fragmentation reactions / 1.4.4:
Spectral dynamics / 1.1.2.12:
Quench-condensation
Overview of the northern hemisphere temperature variations
Calcium-centered radicals / 2.8.1.3:
Langbeinite-type family / 4.2.4:
Table of polarization parameters for elastic (anti-p)p scattering / 6.3.8:
The asteroids (minor planets)
Geometric and dynamic source parameters / 25:
Optical constants, magneto-optic Kerr or Faraday effect
Resonance data tables
Hindered rotation / 2.4.2.7:
Allyl radicals containing O
Rearrangement reactions / 1.4.5:
References for 6.3 / 1.1.2.13:
Annealing
Spectral overview of the northern hemisphere temperature variations
Scandium-centered radicals / 2.8.2:
Lecontite (NaNH4 SO4 ·2H2 O) family / 4.2.5:
Errata
References for 1.4 / 1.5.1.4.4:
Meteors and meteorites
Radiation pattern and source mechanisms / 26:
Index of substances (See Vol.13E)
Specific heat, resistivity, magnetoresistance, Hall coefficients, Seebeck coefficients and thermal conductivity
Deuterium / W. Zahel
Allyl radicals containing S
Ageing / 3.3.3:
Summary of possible causes of climate variations
Vanadium-centered radicals / 2.3.1.2:
Alum (NH4 Fe(SO4 )2 ·12H2 O) family / 4.2.6:
Symmetric top rnolecules / 1.5.1.4.5:
Kaon nucleon elastic and charge exchange scattering / 1.2.20:
Comets
Seismic source spectrum and magnitude / 27:
References for 1.1.2
Astronomical tides
Lithium
Derivation of apparent resistivity estimates from experimental electric and electromagnetic data / 2.8.1.5:
Allyl radicals containing N and P
Cold working / 3.3.4:
Cobalt-centered radicals / 2.3.1.3:
GASH (C(NH2 )3 Al(SO4 )2 ·6H2 O) family / 4.2.7:
Linear and symmetric top molecules
Survey of data / 1.5.1.5:
Interplanetary dust and zodiacal light
The spatial distribution of earthquake foci / 28:
Alloys between 3d elements
Beryllium
Inversion of electromagnetic response estimates
Allyl radicals containing Si, Ge, and Sn
Surveys / 3.3.5:
Glossary
Copper-centered radicals / 2.3.1.4:
LiH3 (SeO3 )2 family / 4.2.8:
Interplanetary particles and magnetic field / D. Bonnenberg1.5.1.6:
Seismic return period and earthquake statistics / 29:
The tide-generating potential
Boron
Asymmetric top rnolecules / 2.4.2.9:
Principle constraints of interpretation
Methylene allyl radicals
3d transition elements with Cu / K.A. Hempel3.4:
References for 15
Zinc-centered radicals / 2.8.2.1:
Colemanite (Ca2 B6 O11 ·5H2 O) / 4.2.9:
Tables of total cross sections of (K+-)p and (K+-)d scattering / 1.5.1.7:
Abundances of the elements in the solar system
Macroseismic effects / 30:
The tidal dynamical equations / H.P.J. Wijn
- 9 Nitrogen / D. Etling
Magnetic constants
General notes on response data and models in figures and tables of subsection 2.3.1
Iminoallyl radicals
3d transition elements with Ag / A. Dubrulle3.5:
Gallium-centered radicals / 10:
Tables of differential cross sections for elastic (K+-)p scattering / 4.2.10:
Chronology of the solar system
K4 Fe(CN)6 ·3H2 O family
Earthquake prediction
Alloys between Fe, Co or Ni
Time dependence of the tidal field of motion
The Planetary Boundary Layer (PBL)
Oxygen
The electrical resistivity in the continental crust / 2.8.2.2:
Phenyl- and aryl-substituted allyl radicals
Comprehensive index (See Vol.2C)
3d transition elements with Au / 31:
RNi compounds / 16.1:
Germanium-centered radicals / 2.3.1.7:
Diatomic rnolecules / 4.2.11:
Tables of differential cross sections for charge exchange scattering / 1.2.25:
SC(NH2 )2
C-C bonds
References for 2.1.1
Phase diagrams, lattice parameters
Open ocean tides
Sodium
The electrical resistivity of the mantle from observations on continents / 2.9.2:
Aza-allyl and phospha-allyl radicals
References for 1.5.1 / 32:
Arsenic-centered radicals / W. HUTtner16.2:
C-Si and C-Ge bonds / 4.2.12:
Tables of polarizations in elastic (K+-)p scattering / G. Müller1.5.2:
N(CH3 )4 HgCl3 family
Magnetic properties
Co-oscillating tides
The vertical structure of the PBL
Magnesium
The resistivity of crust and mantle beneath oceans
Semicyclic allyl radicals
C-O bonds / 33:
Selenium-centered radicals / W. Zürn1.2.1.2.1:
References for 2 / 4.2.13:
Cu(HCOO)2 ·4H2 O
C-S and C-Se bonds
Vertical distribution of tidal currents
3d elements and Be, Mg, Zn or Hg
Theoretical basis
Aluminum
References for 2.3.1 / 2.8.2.4:
Cyclopropenyl radicals
Seismic waves and free oscillations / 34:
Bromine-centered radicals / 1.2.1.2.2:
C-N and C-P bonds / 4.2.14:
DSP (Ca2 Sr(CH3 CH2 COO)6 ) family / V. Haak2.1.2.0:
Hyperfine magnetic fields, isomer shifts
References for 6.4
Alloys and compounds of 3d elements with Be
The surface layer
Sulfur
Isocyclic allyl radicals
Other bonds / 35:
Krypton-centered radicals / 1.2.1.2.3:
Index of substances (See Vol.19D3) / E. Mittelsteadt4.2.15:
Anomalies of the electrical conductivity in the earth's crust and upper mantle
CH2 ClCOONH4 family / 1.2.29:
Spin waves
Alloys and compounds of 3d elements with Mg
The Planetary Boundary Layer
Chlorine
Heterocyclic allyl radicals / 2.8.2.5:
Body waves / 36:
Rubidium-centered radicals / 1.2.1.2.4:
Upwelling regions / 4.2.16:
Chlorine (See Vol.20B)
TGS ((NH2 CH2 COOH)3 ·H2 SO4 ) family / 1.2.30:
Atomic magnetic moment, magnetic moment density, g and g' factor
Alloys and compounds of 3d elements with Zn or Hg / 7.1:
Observations in the PBL
Potassium - Rubidium (See Vol.20B)
Bicyclic and tricyclic allyl radicals / 2.3.2.1:
Surface waves / 37:
Zirconium - Bismuth (See Vol.20C) / 1.2.1.2.5:
Strontium-centered radicals
NH2 CH2 COOH·AgNO3 / 4.2.17:
Spontaneous magnetization, Curie temperature
References for 1.5.2 / 7.2:
Modelling of the PBL
Diagrams of NQR frequencies and related properties (See Vol.20C)
References to further papers concerning ESR studies on allyl radicals / 2.3.2.2:
Free oscillations / 38:
Yttrium-centered radicals / 1.2.1.2.6:
Open ocean upwelling zones / 4.2.18:
Representation of experimental data / J.G. Booth
(NH2 CH2 COOH)2 ·HNO3 / 1.2.32:
High-field susceptibility
Allenyl (propargyl) radicals / 7.3:
Diagrams / 39:
Niobium-centered radicals / 2.4.2.16:
Coastal upwelling / 4.2.19:
3d elements and B, Al, Ga, In or TI
Resolution and reliability / 4.3:
(NH2 CH2 COOH)2 ·MnCl2 ·2H2 O / 1.2.33:
References for 2.1.2
Magnetocrystalline anisotropy
References for chapter 4 / 7.4:
References to further papers concerning ESR studies on allenyl radicals / 2.3.2.4:
Rhodium-centered radicals / 40:
References
References for 7 / A.M. Dziewonski
Structure formulas (See Vol.20C)
Selection of anomalies / 2.8.2.8:
(CH3 NHCH2 COOH)3 ·CaCl2 / 1.2.34:
Appendix: Additions to Chapter 2 Index of substances (See Vol.14B)
Magnetostriction
References for 16 / 8:
Radicals with 5 conjugated π-electrons / 2.4.2.17:
Indexes (See Vol.20C) / D.L. Anderson ; G. Koslowski41:
Silver-centered radicals
3d-B alloys and compounds / 4.3.1:
Presentation of results
Rochelle salt (NaKC4 H4 O6 ·4H2 O) family / 1.2.35:
Magnetomechanical properties, elastic moduli, sound velocity
Index of gross molecular formulas / 1.5.3.3:
Pentadienyl radicals / 2.8.2.9:
Structure, elastic and rheological properties and density of the earth's interior / 42:
Ice in the ocean / 1.2.1.2.10:
Cadmium-centered radicals / 2.4.2.18:
3d-Al alloys and compounds / 4.3.2:
Index of substance names
List of compiled conductivity anomalies
LiNH4 C4 H4 O6 ·H2 O family / 1.2.36:
Thermomagnetic properties, thermal expansion coefficient, specific heat, Debye temperature, thermal conductivity
Pentadiinyl radicals / 1.5.3.3.1:
Index of CAS registry numbers / 1.2.1.2.11:
Indium-centered radicals
Miscellanea / 4.3.3:
Sc-Al / 2.1.3.1:
Errata (See Vol.20C)
Description of anomalies
Galvanomagnetic properties / 1.2.37:
Corrections (See Vol.31B) / 1.5.3.3.2:
Semicyclic pentadienyl radicals / 2.4.2.19:
The Gross Earth Data Set
Structure of sea ice / 1.2.1.2.12:
Tin-centered radicals
Miscellaneous crystals (including oxides) and polymers / 4.3.4:
Ti-Al / 2.1.3.2:
References for 2.3.2
Magneto-optical properties / 1.2.38:
Cyclopentadienyl radicals / 1.5.3.3.3:
The earth model
Salinity of sea ice / 1.2.1.2.13:
Composition of the earth's interior (See Vol. 2A) / 2.4.2.20:
Antimony-centered radicals
Liquid crystals and related liquids / 4.3.5:
V-Al / 2.1.3.3:
Ferromagnetic resonance properties / 1.2.39:
Tides of the earth (See Vol. 2A) / 1.5.3.3.4:
References to further papers concerning ESR studies on cyclopentadienyl radicals
Thermophysical properties of sea ice / 1.2.1.3:
Tellurium-centered radicals
Cr-Al / 4.3.6:
Gravity field and figure of the earth (See Vol. 2A) / 2.8.2.11:
References for 2.1.3 / 1.2.40:
References for 1.2.1
Cyclohexadienyl radicals / 1.5.3.3.5:
Elastic properties and deformation of sea ice / 2.1.4:
References for 2.4
Iodine-centered radicals
Mn-Al / C. Prodehl ; K. Adachi4.3.7:
Magnetic field of the earth
References to further papers concerning ESR studies on cyclohexadienyl radicals / A. Chelkowski1.2.41:
Strength of sea ice
Xenon-centered radicals
Structure of the earth's crust and upper mantle / 4.3.8:
Alloys between Ti, V, Cr or Mn
Fe-Al / 8.6:
Compounds of rare earth elements and 4d or 5d elements / 2.8.2.12:
Pyryl radicals
Ice cover characteristics of the world ocean
Sources of the geomagnetic field / 2.5.1:
Cesium-centered radicals
Co-Al / 4.3.9:
References to further papers concerning ESR studies on pyryl radicals / 4.1.1:
References for 8
External part of the earth's magnetic field / 2.5.2:
Barium-centered radicals
Procedure of interpretation / 4.3.10:
V-Ti
Ni-Al / 9:
Pseudoternary compounds / H.G. Gierloff-emden4.1.2:
Survey of compounds and properties
Thiapyryl radicals
Internal part of the earth's magnetic field / 2.8.3.1:
Lanthanum-centered radicals
Main features of continental and oceanic crustal structure / 4.3.11:
Cr-Ti
3d-Ga compounds
Coastal oceanography / 4.1.3:
Compounds with transition metal substitution / 1.5.3.4.1:
Pyridinyl radicals
Spherical harmonics in geomagnetism / 9.1:
Tungsten-centered radicals
Presentation of individual results / 4.3.12:
Cr-V
Sc-Ga
References for 2.5
Definitions and spatial extensions / 4.1.4:
Compounds with rare earth metal substitution / 1.5.3.4.2:
References to further papers concerning ESR studies on pyridinyl radicals
References for 4.1 / 9.2:
Gold-centered radicals
Main features of the structure of the lower lithosphere and asthenosphere / 4.3.13:
Mn-Ti
Ti-Ga
Classification of coasts / 1.2.47:
References for 2.8 / 1.5.3.4.3:
Phosphorinyl radicals
Magnetic field on the surface and the interior of the earth / 9.3:
Mercury-centered radicals
References for 2.1.4 / 4.4:
Mn-V
V-Ga
The high-energy environment of the coastal zone / 1.2.48:
Radicals with 7 conjugated π-electrons / W. Bosum1.5.3.4.4:
Thallium-centered radicals / 9.4:
Mn-Cr / 4.4.1:
Cr-Ga
Compounds of rare earth elements and Al, Ga, In or Tl
The shore as the interaction zone of sea and land / R. Pucher1.2.49:
Heptatrienyl radicals / 1.5.3.4.5:
Lead-centered radicals / H. Roeser9.5:
Mn-Ga / 4.4.2:
Wave effects on coasts / 1.2.50:
Cycloheptatrienyl radicals / 1.5.3.4.6:
Alloys of Fe, Co or Ni and Ti, V, Cr or Mn / R. Von Herzen
Crustal anomalies and their cause / 9.6:
Bismuth-centered radicals
Fe-Ga / 4.4.3:
Tide effects on coasts / 4.2.1.0:
Cyclooctatrienyl radicals / 1.5.3.4.7:
Oceanic heat flow data
Ytterbium-centered radicals / 9.7:
Co-Ga / 4.4.4:
Estuaries and lagoons as coastal water bodies / 4.2.1.1:
Benzyl radicals / 1.5.3.4.8:
Fe-Ti
Definition of the crustal anomalies / 9.8:
References for 1.2
Ni-Ga / 4.4.5:
References for 2.9
Coastal lagoons / 4.2.1.2:
Benzyl-type radicals containing heterocyclic 6 π-electron ring systems / A. V.Zelewsky1.5.3.4.9:
Western and South Pacific
Fe-V
Layout and execution of geomagnetic surveys / 9.9:
Cu-Ga / 4.4.6:
River discharge affecting coastal waters / C. Daul4.2.1.3:
Bicyclic benzyl-type radicals derived from indanone and phthalide / 1.5.3.5:
Northeast and Central Pacific
Fe-Cr
Compounds of rare earth elements and C, Si, Ge, Sn or Pb / 9.10:
Data handling
3d-In alloys and compounds / 4.4.7:
Radicals in metal complexes / 2.10.1:
Chemical and biological effects on the coastal zone
References to further papers concerning ESR studies on benzyl radicals / 1.5.3.5.1:
East Pacific
Fe-Mn
Interpretation methods / 9.11:
Sc-In / 4.5:
Climatologic-meteorologic effects on coasts. Oceanic-atmospheric coupled systems / 2.10.2:
Radicals with 9 conjugated π-electrons / 1.5.3.5.2:
North Atlantic
Co-Tl
Magnetic anomalies of the continental crust / 9.12:
Mn-In / 4.5.1:
Sea level change and the coastal zone / 2.10.3:
Cyclooctatetraenylmethyl / 1.5.3.5.3:
South Atlantic
Co-V
Marine magnetic anomalies / 9.13:
Ni-In / 4.5.2:
Complexes of group IIa: Mg, Ca, Sr, Ba / 2.10.4:
References for 9
Indenyl and related radicals / 1.5.3.6:
Indian Ocean
Co-Cr
References for 2.10
Economic aspects
3d-Tl alloys and compounds / 4.5.3:
Complexes of group IIIb: B, Al, Ga, In / 4.2.1.8:
alpha-Hydronaphthyl and related radicals / 1.5.3.7:
Marginal Seas
Co-Mn
Bibliography for 4.2.1
References for 1.5.3 / 4.5.4:
Complexes of group IVb: Ge, Sn, Pb
Cyclohexadienyl-type radicals derived from indole and carbazole
References for 2.2.1.1
Ni-Ti
Complexes of group Vb: Sb / 4.5.5:
Continental heat flow data (See Vol. 2B)
Magnetic and electric fields due to electromagnetic induction by external sources
beta-Hydronaphthyl and related radicals / 2.2.5:
Ni-V
Complexes of group IIIa: Y, La, Lu / L. Rybach4.2.2.0:
Quinolinyl and related radicals / 2.2.6:
Ni-Cr
Radioactive heat production in the continental crust / 4.2.2.1:
Complexes of group IVa: Ti / 1.2.3.12:
Basic observations and theoretical concepts
Cyclohexadienyl-type radicals derived from anthracene and phenanthrene and related to hydro-naphthyl / 2.2.7:
Temperature profiles in the earth's interior (See Vol. 2B)
Ni-Mn
Complexes of group Va: V / 4.2.2.2:
Heat transport in the earth's interior (See Vol. 2B)
Response functions for induced magnetic and electric fields
Radicals with 11 conjugated π-electrons / 2.2.8:
V-Cr-Mn
Electrical properties of the earth's interior (See Vol. 2B) / 4.2.2.3:
Complexes of group VIa: Cr, Mo, W / 1.2.3.14:
Natural earth potentials and earth currents
Radicals with 13 conjugated π-electrons / 2.2.9:
Fe-V-Cr / I. Jackson
Complexes of group VIIa: Mn, Re / 4.2.2.4:
Derivation of external source fields from surface observations
Phenalenyl (perinaphthenyl) radicals / 2.2.10:
Composition of the earth's interior
Fe-Cr-Mn
Complexes of group VIII: Fe, Ru, Co, Rh, Ir, Ni, Pd, Pt / 4.2.2.5:
References for 4.2.2
Diphenylmethyl radicals / 2.2.11:
Co-V-Cr
Complexes of group Ib: Cu, Ag / D. Voppel4.7.3:
Fluorenyl radicals / 2.2.12:
Co-Cr-Mn
Observation and description of the main geomagnetic field and its secular variation / 4.7.4:
Complexes of group IIb: Zn, Cd, Hg
Dibenzocyclohexadienyl and related radicals / 4.2.3.0:
The crust
Fe-Co-Ti
List of symbols, quantities, units and abbreviations / 4.7.5:
References for 2.2
Index of Substances (See Vol.9D2) / 4.2.3.1:
Dibenzocycloheptatrienyl and related radicals
The upper mantle
Fe-Co-V
Benzo[cd]pyrenyl / 4.7.6:
The transition zone
Fe-Co-Cr
Observation of the earth's magnetic field / 4.7.7:
Xanthyl radicals / V:
The lower mantle
Fe-Co-Mn
Combined index of substances for Vols.16A and 16B / 4.7.8:
Analyses of observations / 2.4.7:
Thioxanthyl and related radicals / 4.2.3.4:
The core
Fe-Ni-V
Knowledge gained from spherical harmonic models / 4.7.9:
Selenoxanthyl and related radicals / 4.2.3.5:
Fe-Ni-Cr
References for 4.2.3 / 4.7.10:
Acridinyl and related radicals
Tides of the earth
Fe-Ni-Mn
Dibenzosilacyclohexadienyl and related radicals / F.H. Busse4.7.11:
List of symbols and abbreviations for 2.5.1 and 2.5.2
Co-Ni-Ti
Material properties entering the theory of the main geomagnetic field
Diphenylmethyl-type radicals containing heterocyclic 6 π-electron ring systems / H. Wilhelm ; H. Soffel4.7.12:
Co-Ni-Mn
Palaeomagnetism and archaeomagnetism / 4.7.13:
References to further papers concerning ESR studies on diphenylmethyl radicals
References for 1.2.2 and 1.2.3
Tidal forcing field / 4.3.0:
Radicals with 19 conjugated π-electrons / S. Misawa2.5.1.1:
Introduction, definitions, hypotheses / K. Kanematsu4.8.1:
Triphenylmethyl radicals
Expansion in spherical harmonics / 4.8.2:
4d and 5d elements, alloys and compounds
Apparent polar wander paths (APWP) / 2.5.1.3:
9-Phenylfluorenyl radicals
Equatorial and ecliptical coordinates / 4.8.3:
Introduction to the paramagnetism of 4d and 5d transition metals
Geomagnetic polarity time scale, magnetostratigraphy, palaeo-secular variation / 2.5.1.4:
9-Phenylxanthyl radicals
Components / 4.8.4:
Magnetic susceptibility
Determination of the intensity of the ancient geomagnetic field / 2.5.1.5:
9-Naphthylxanthyl radicals
Astronomical variables. Time / 4.8.5:
Magnetic susceptibility as a function of composition
Geomagnetic field during a polarity transition / 2.5.1.6:
Dioxydehydrocoranthryl and sesquixanthydryl
Harmonic development / 4.8.6:
High-field magnetization
Archaeomagnetism / 2.5.1.7:
9-Phenylthioxanthyl
References for 2.5.1 / 4.8.7:
Magnetization density
Palaeomagnetism of samples of extraterrestrial origin / 1.3.6:
9-Phenylselenoxanthyl
Knight shift / 4.8.8:
References for 4.3 / 1.3.7:
9-Phenylacridinyl
Tides of the solid earth / 4.8.9:
Transport of masses in the earth's interior / 1.3.8:
Triphenylmethyl-type radicals containing 5-membered ring systems especially thiophene
Magnetoresistance and Hall effect / 2.5.2.1:
Relief of the earth's surface and of the sea floor / 1.3.9:
References to further papers concerning ESR studies on triphenylmethyl radicals
Magnetic field dependence of the electronic specific heat coefficient / 2.5.2.2:
Body tides / H. Hagedorn
References for 4 / 1.3.10:
Effect of plastic deformation on the susceptibility / 2.5.2.3:
The relief of the earth's surface
Observations
References for 1.3 / 1.3.11:
The hypsographic curve
Load tides
Alloys and compounds of 3d elements and 4d or 5d elements / 5.1.1.2:
Area of continents and oceans
Systematic effects
Structural forms due to endogenic processes / M. Shiga5.1.1.3:
Local elastic inhomogeneities
3d elements and Zr, Nb, Mo or Hf, Ta, W, Re / 5.1.1.4:
Exogenic continental relief / 1.4.1.1:
Meteorological effects
Weathering / 5.1.1.5:
References for 2.5.2
Ti and V alloys and compounds / 5.1.1.6:
Exogenic relief-forming processes / P. Brosche1.4.1.3:
Cr alloys and compounds / J. Sündermann5.1.1.7:
Ice and glaciated areas / 1.4.1.4:
Tidal friction and dynamics of the earth-moon-system / 5.1.1.8:
Mn alloys and compounds
References for 5.1.1 / 2.5.3.0:
Fe alloys and compounds / 5.1.2:
The principle / H.G. Gierloff-Emden2.5.3.1:
Co and Ni alloys and compounds
Relief of the sea floor
References for 1.4.1 / 2.5.3.2:
Balances of energy and angular momentum / 2.5.3.3:
Geomorphology of the sea floor
Long time integration / 2.5.3.4:
Documentation and presentation of the relief of the sea on maps
3d elements and Ru, Rh, Pd or Os, Ir, Pt / 2.5.3.5:
Bibliography for 2.5.3 / 5.1.2.3:
Hypsography of the relief of the sea floor
3d-rich alloys
Hypsometric statistics of the sea floor / H.-G. Kahle5.1.2.4:
Concentrated alloys and intermetallic compounds
Gravity field and figure of the earth / 5.1.2.5:
Terms for horizontal and vertical dimensions of oceans and sea floors / 1.4.2.2.0:
Gravity potential of the earth / 5.1.2.6:
Subdivision of the seafloor into physiographic provinces / 1.4.2.2.1:
Sc, Ti, and V alloys and compounds
Fundamental notions of gravimetry / 5.1.2.7:
Classification of the ocean floor features / 1.4.2.2.2:
Gravimetric measuring techniques / 5.1.2.8:
Morphologic units of the oceans: description of forms / 1.4.2.2.3:
Reference ellipsoid and geoid / 5.1.2.9:
Tectonic-morphogenetic units of the mid-atlantic ridge and adjacent areas / 1.4.2.2.4:
Satellite geodesy and the earth's gravitational potential V / 5.1.2.10:
Classification of global physiographic units of the Atlantic Ocean, topographic-bathymetric dimension (metric) / 1.4.2.2.5:
Co alloys and compounds
References for 3 / 5.1.2.11:
The mid-ocean ridges: geomorphologic element of global scale and distribution / 1.4.2.2.6:
Magnetic field of the earth (See Vol. 2B)
Ni alloys and compounds
Classification of continental margins / 5.1.2.12:
4d- and 5d-rich alloys
Relief of the earth's surface and of the sea floor (See Vol. 2B) / 5.1.2.13:
Submarine canyons (features of macroscale)
References for 1.4.2 / 5.2:
Fracture zones (features of mesoscale to macroscale) / H. Mälzer5.1.2.14:
Recent crustal movements / 5.1.2.15:
Deep sea trenches (features of meso- to macroscale) / 5.2.0:
Abyssal hills and seamounts. Example: features of the Pacifc Ocean sea floor / 5.1.2.16:
Micro-relief of the sea floor: the roughness of the ocean bottom / 5.1.2.17:
Measurements of deformation within plate interiors and near active plate boundaries / 5.1.2.18:
Sedimentation of the ocean bottom / 5.2.3:
Measurements on a global scale / 5.1.2.19:
The mid-ocean ridges and the sea floor spreading / 5.2.4:
References for 5.2 / 5.1.2.20:
Plate tectonics and the relief of the sea floor / 5.3:
Theories and hypotheses of global tectonics (See Vol. 2B)
References for 5.1.2 / 5.1.2.21:
Recent crustal movements (See Vol. 2A)
Motions in the earth's core and core-mantle coupling
Theories and hypotheses of global tectonics / W.R. Jacoby ; R. Meissner ; P. Janle
Planetology of terrestrial planets / 5.3.0:
Historical review / 6.0:
Short description of the terrestrial planetary bodies / 5.3.3:
Plate kinematics
Absolute age determinations / 5.3.4:
Measurements of plate motions
Relative age determination / 5.3.5:
Results
Geological - geophysical interpretation of surface structures / 6.5:
Plate tectonics
Gravity studies from orbiters and density models of lithospheres / 6.6:
Plate dynamics: driving mechanisms
Additional studies from orbiter, fly-by, and descend missions / 6.7:
References for 5.3
Motions in the earth's core and core-mantle coupling (See Vol. 2A) / 6.8:
Lunar seismology
Planetology of terrestrial planets (See Vol. 2A) / 6.9:
Planetary magnetic fields and remanent magnetization
Subject index for volumes 1A, 1B and 2A, 2B
Electrical conductivity, heat flow and estimates on the lunar temperature / 6.10:
Physical conditions of the interior of planets / 6.11:
The evolution of terrestrial planets / 6.12:
Subject index for volumes 1A, 1B and 2A, 2B (see Vol. 2B) / 6.13:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
11.
図書
G. W. H. Cheeseman, R. F. Cookson
目次情報:
続きを見る
General Introduction to Quinoxaline Chemistry
Quinoxaline--The Parent Heterocycle
Quinoxalines Unsubstituted in the Heteroring
Quinoxaline Mono- and Di-N-oxides
Quinoxaline-2-ones and Quinoxaline-2,3-diones
Quinoxaline-2-thiones and Quinoxaline-2,3-dithiones
Quinoxaline-2-carboxaldehydes and Quinoxaline-2,3 dicarboxaldehydes
Quinoxaline 2-Ketones and 2,3-Diketones
Quinoxaline-2-carboxylic Acids and Quinoxaline-2,3 dicarboxylic Acids
2-Halogenoquinoxalines and 2,3-Dihalogenoquinoxalines
2-Aminoquinoxalines and 2,3-Diaminoquinoxalines
2-Hydrazinoquinoxalines
2-Alkoxy-, 2-Aryloxy-, 2,3-Dialkoxy-,2-Alkoxy-, 3-aryloxy-, and 2,3-Diaryloxquinoxalines
2-Alkyl- and 2,3-Dialkylquinoxalines
2-Aryl(heteroaryl)- and 2,3-Diaryl(diheteroaryl)quinoxalines
2-Polyhydroxyalkylquinoxalines
Quinoxaline Quaternary Salts
Reduced Quinoxalines
Salts
Pyrrolo [1,2-a] pyrazines
Pyrrolo[b]pyrazines
Imidazopyrazines
Pyrazolopyrazines
Triazolo- and Tetrazolopyrazines
Furo-, Oxazolo-, Isoxazolo-, and Oxadiazolopyrazines
Thieno-, Thiazolo-, Isothiazolo-, and Thiadiazolopyrazines
Miscellaneous 5,6-Systems
Pyrido[1,2-a] pyrazines
Pyrido[2,3-b]pyrazines
Pyrido[3,4-b]pyrazines
Pyrazinopyrimidines
Pyrazinopyrazines
Pyrazinotriazines and Pyrazinotetrazines
Pyrazinooxazines
Pyrazinothiazines
Pyrroloquinoxalines
Imidazoquinoxalines
Pyrazoloquinoxaline
Benzo[f]quinoxalines
Benzo[g]quinoxalines
Pyridoquinoxalines
Author Index?
Subject Index
General Introduction to Quinoxaline Chemistry
Quinoxaline--The Parent Heterocycle
Quinoxalines Unsubstituted in the Heteroring
12.
EB
Gordon William Henry Cheeseman, G. W. H. Chesseman, R. F. Cookson, Ronald Frederick Cookson
出版情報:
Wiley Online Library - AutoHoldings Books , John Wiley & Sons, Inc., 1979
子書誌情報:
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目次情報:
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General Introduction to Quinoxaline Chemistry
Quinoxaline--The Parent Heterocycle
Quinoxalines Unsubstituted in the Heteroring
Quinoxaline Mono- and Di-N-oxides
Quinoxaline-2-ones and Quinoxaline-2,3-diones
Quinoxaline-2-thiones and Quinoxaline-2,3-dithiones
Quinoxaline-2-carboxaldehydes and Quinoxaline-2,3 dicarboxaldehydes
Quinoxaline 2-Ketones and 2,3-Diketones
Quinoxaline-2-carboxylic Acids and Quinoxaline-2,3 dicarboxylic Acids
2-Halogenoquinoxalines and 2,3-Dihalogenoquinoxalines
2-Aminoquinoxalines and 2,3-Diaminoquinoxalines
2-Hydrazinoquinoxalines
2-Alkoxy-, 2-Aryloxy-, 2,3-Dialkoxy-,2-Alkoxy-, 3-aryloxy-, and 2,3-Diaryloxquinoxalines
2-Alkyl- and 2,3-Dialkylquinoxalines
2-Aryl(heteroaryl)- and 2,3-Diaryl(diheteroaryl)quinoxalines
2-Polyhydroxyalkylquinoxalines
Quinoxaline Quaternary Salts
Reduced Quinoxalines
Salts
Pyrrolo [1,2-a] pyrazines
Pyrrolo[b]pyrazines
Imidazopyrazines
Pyrazolopyrazines
Triazolo- and Tetrazolopyrazines
Furo-, Oxazolo-, Isoxazolo-, and Oxadiazolopyrazines
Thieno-, Thiazolo-, Isothiazolo-, and Thiadiazolopyrazines
Miscellaneous 5,6-Systems
Pyrido[1,2-a] pyrazines
Pyrido[2,3-b]pyrazines
Pyrido[3,4-b]pyrazines
Pyrazinopyrimidines
Pyrazinopyrazines
Pyrazinotriazines and Pyrazinotetrazines
Pyrazinooxazines
Pyrazinothiazines
Pyrroloquinoxalines
Imidazoquinoxalines
Pyrazoloquinoxaline
Benzo[f]quinoxalines
Benzo[g]quinoxalines
Pyridoquinoxalines
Author Index?
Subject Index
Author Index
General Introduction to Quinoxaline Chemistry
Quinoxaline--The Parent Heterocycle
Quinoxalines Unsubstituted in the Heteroring
13.
学位
Akio Makishima
出版情報:
東京 : 東京工業大学, 1971
子書誌情報:
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14.
EB
Hans Neunhoeffer, Paul F. Wiley
出版情報:
Wiley Online Library - AutoHoldings Books , John Wiley & Sons, Inc., 1978
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1,2,3-Triazines / H. Neunhoeffer
Introduction
Uncondensed Aromatic Systems
Uncondensed Reduced Systems
1,2,3-Triazine Rings Condensed with Carbocycles
1,2,3-Triazine Rings Condensed with Heterocycles through Carbon Atoms
1,2,3-Triazine Rings Condensed with Heterocycles through a Carbon Atom and a Nitrogen Atom
1,2,3-Triazine Rings Condensed with Two Heterocycles
1,2,3-Triazine Rings Condensed with Heterocycles through Two Nitrogen Atoms
Uses and Biochemical Aspects of
1,2,3-Triazine Derivatives
1,2,4-Triazines
Uncondensed Reduced
Condensed
1,2,4-Triazine Systems
1,2,4-Triazine Rings Condensed with Heterocycles through Carbon Atoms
1,2,4-Triazine Rings Condensed with Heterocycles through a Carbon and a Nitrogen Atom
1,2,4-Triazine Rings Condensed with Heterocycles through Two Nitrogen Atoms
1,2,4-Triazine Rings Condensed with Two Heterocycles
1,2,4-Triazine Rings as Part of a Bicyclic System
Polymers Containing the 1,2,4-Triazine Nucleus
References
1,2,4,5-Tetrazines / P. F. Wiley
Verdazyls
Condensed Systems
Polymers
Uses
Other Six-Membered Nitrogen Heterocycles / P. F.Wiley
1,2,3,4-Tetrazines
1,2,3,5-Tetrazines
Pentazines
Uses and Biochemical Aspects of 1,2,3-Triazine Derivatives
Uncondensed Reduced 1,2,4-Triazines
Condensed 1,2,4-Triazine Systems
Uses and Biochemical Aspects of 1,2,4-Triazines
Other Six-Membered Nitrogen Heterocycles. / P. F
Wiley
1,2,3-Triazines / H. Neunhoeffer
Introduction
Uncondensed Aromatic Systems
15.
図書
edited by Jacques Carmona and Michèle Vergne
目次情報:
続きを見る
Introduction to Acoustics / 1:
Fundamental Physical Principles / 1.1:
Sound Pressure / 1.1.1:
Particle Velocity / 1.1.2:
Sound Power / 1.1.3:
Frequency / 1.1.4:
The Speed of Sound / 1.1.5:
Wavelength / 1.1.6:
Characteristics of the Auditory System / 1.2:
The Sensation of Loudness / 1.2.1:
Masking / 1.2.2:
Directional Characteristics / 1.2.3:
Directional Hearing / 1.2.4:
The Cocktail Party Effect / 1.2.5:
Masking for the Musician / 1.2.6:
Sensitivity to Changes in Frequency and Sound Pressure Level / 1.2.7:
Structure of Musical Sound / 2:
Introducing the Model / 2.1:
Frequency-and Level: Structures / 2.2:
The Harmonic Tone Structure of Sound Spectra / 2.2.1:
The Frequency Range of Sound Spectra / 2.2.2:
Formants / 2.2.3:
The Effect of Individual Partials / 2.2.4:
Frequency Width of Partials / 2.2.5:
Noise Contributions / 2.2.6:
Dynamics and the Sound Spectrum / 2.2.7:
Dynamic Range and Sound Power / 2.2.8:
Time Structures / 2.3:
Deviations from a Steady Vibration Process / 2.3.1:
The Starting Transient / 2.3.2:
Inharmonic Components / 2.3.3:
Decay of Resonating Systems / 2.3.4:
Decay Time and Reverberation Time / 2.3.5:
Fluctuations in the Quasistationary Part / 2.3.6:
Tonal Characteristics of Musical Instruments / 3:
Brass Instruments / 3.1:
The French Horn / 3.1.1:
The Trumpet / 3.1.2:
The Trombone / 3.1.3:
The Tuba / 3.1.4:
Woodwind Instruments / 3.2:
The Flute / 3.2.1:
The Oboe / 3.2.2:
The Clarinet / 3.2.3:
The Bassoon / 3.2.4:
String Instruments / 3.3:
The Violin / 3.3.1:
The Viola / 3.3.2:
The Cello / 3.3.3:
Double Bass / 3.3.4:
The Piano / 3.4:
Sound Spectra / 3.4.1:
Dynamics / 3.4.2:
Time Structure / 3.4.3:
The Harpsichord / 3.5:
The Harp / 3.5.1:
Percussion Instruments / 3.6.1:
Timpani / 3.7.1:
The Bass Drum / 3.7.2:
Snare Drum / 3.7.3:
Gong / 3.7.4:
Cymbals / 3.7.5:
The Triangle / 3.7.6:
The Singing Voice / 3.8:
Choral Singing / 3.8.1:
Foundations of Directional Sound Radiation / 4:
Directional Effects and Polar Diagrams / 4.1.1:
Evaluation and Representation / 4.1.2:
General Considerations / 4.2:
The Double Bass / 4.4.2:
The Grand Piano / 4.5:
Lid Open / 4.5.1:
Lid Closed / 4.5.2:
Lid Half Open / 4.5.3:
Lid Removed / 4.5.4:
The Timpani / 4.5.5:
The Drum / 4.7.2:
Gongs / 4.7.3:
Color Plates Following Page / 4.8:
Foundations of Room Acoustics / 5:
Reflection and Refraction / 5.1:
Reflection from a Flat Surface / 5.1.1:
Reflection from Curved Surfaces / 5.1.2:
Influence of the Wavelength / 5.1.3:
Absorption / 5.2:
Reverberation / 5.3:
Direct Sound and Diffuse Field / 5.4:
The Energy Density / 5.4.1:
The Direct Sound / 5.4.2:
Diffuse-Field Distance / 5.4.3:
Temporal Structure of the Sound Field / 5.5:
Acoustical Properties of Old and New Performance Spaces / 6:
Concert Halls / 6.1:
Tonal Requirements / 6.1.1:
Reverberation Time and Hall Size / 6.1.2:
Sound Field and Hall Shape / 6.1.3:
Acoustic Conditions on the Stage / 6.1.4:
The Location of the Conductor / 6.1.5:
Opera Houses / 6.2:
Reverberation Time and Room Size / 6.2.1:
Direct Sound and Early Reflections / 6.2.2:
Churches / 6.3:
Chamber Music Halls / 6.4:
Studios / 6.5:
Special Purpose Rooms / 6.6:
Open Air Stages / 6.7:
Seating Arrangement in the Concert Hall / 7:
Customary Positioning of Instrument Groups / 7.1:
The Tonal Effect in the Hall / 7.2:
Grand Pianos / 7.2.1:
Harps / 7.2.6:
Combined Sound of the Orchestra / 7.2.7:
Singing Voices / 7.2.8:
Acoustic Considerations for Instrumentation and Playing Technique / 8:
Strength of Ensembles / 8.1:
Historical Development / 8.1.1:
Adapting to the Hall / 8.1.2:
Performance Technique / 8.2:
Articulation and Tone Presentation / 8.3.1:
Vibrato / 8.3.2:
Playing Positions of Wind Instruments / 8.3.3:
Tempo and Room Acoustics / 8.4:
Acoustical Problems in the Opera House / 9:
Strength of the Orchestra / 9.1:
Sound Level in the Hall / 9.1.1:
Sound Level in the Orchestra Pit / 9.1.3:
Seating Arrangement in the Orchestra Pit / 9.2:
Customary Arrangements of Instrument Groups / 9.2.1:
Balance between Singers and Orchestra / 9.2.2:
Arrangement of Choirs and Music on Stage / 9.4:
Musicians in the Scene / 9.4.1:
Musicians behind the Scene / 9.4.2:
Appendix Table for Angular Dependence of the Statistical Directivity Factor
References
Subject Index
Author, Composer, and Composition Index
Introduction to Acoustics / 1:
Fundamental Physical Principles / 1.1:
Sound Pressure / 1.1.1:
16.
図書
Maurice W. Long
出版情報:
Lexington, Mass. : Lexington Books, c1975 xxvi, 366 p. ; 24 cm
子書誌情報:
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所蔵情報:
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目次情報:
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Preface
References
Acknowledgments
Remote Sensing by Radar / 1:
State of the Art / 1.1:
Overview / 1.1.1:
Radar Capabilities at the End of World War II / 1.1.2:
Strip Maps and Side-Looking Radar / 1.1.3:
Spaceborne Radar / 1.1.4:
Surface Effects and Emerging Techniques / 1.2:
Effects of Surface Characteristics / 1.2.1:
Modern Techniques for Sensing Surface Characteristics / 1.2.2:
Basic Concepts and Definitions / 2:
Radar Reflectivity / 2.1:
The Radar Equation for Free Space / 2.1.1:
Radar Cross Section of Targets / 2.1.2:
Normalized Radar Cross Section / 2.1.3:
Coherence and Incoherence of a Scattered Field / 2.1.4:
Rayleigh Roughness Criterion, Specular Reflection, and Scattering / 2.1.5:
Far Field of Radar Targets / 2.1.6:
Effects of Radar Frequency Changes / 2.1.7:
Echo Fluctuations / 2.1.8:
The Earth and Its Effects on Radar / 2.2:
Effects of the Earth's Curvature and Refraction / 2.2.1:
The Effect of Interference on a Target / 2.2.2:
Nature of the Sea Surface and Wind Speed Statistics / 2.2.3:
Propagation over the Horizon / 2.2.4:
Attenuation and Scattering by the Atmosphere / 2.2.5:
Polarization, Depolarization, and Theories of Scattering / 3:
Polarization and Depolarization / 3.1:
Polarization Scattering Matrix / 3.1.1:
Relationships Between Linear and Circular Polarizations / 3.1.2:
A Randomly Oriented Dipole / 3.1.3:
A Dihedral Reflector / 3.1.4:
Depolarization Caused by an Ensemble of Randomly Oriented Dipoles / 3.1.5:
Theories for Radar Cross Section of Rough Surfaces / 3.2:
Simple Models Including the Constant Gamma Model / 3.2.1:
Classical Interference Theory / 3.2.2:
The Tangent Plane Approximation / 3.2.3:
Very Rough Surfaces / 3.2.4:
The Facet Model / 3.2.5:
The Slightly Rough Planar Surface / 3.2.6:
Ripples on Water / 3.2.7:
Vegetation Model / 3.2.8:
Composite Surfaces / 3.2.9:
Doppler Spectra of Sea Echo / 3.2.10:
Effects of the Earth's Surface / 4:
Fundamental Concepts / 4.1:
Reflections from a Rough, Spherical Earth / 4.1.1:
Reflection Coefficient for a Flat, Smooth Earth / 4.1.3:
Effect of a Flat, Smooth Earth on Target Echo / 4.1.4:
Echo from Targets That Are Above a Flat, Smooth Earth / 4.2:
Range and Depression Angle Dependencies for a Small Object Above a Smooth Earth / 4.2.1:
Vertically Extensive Objects Above a Smooth Earth / 4.2.2:
Propagation Factors for Circular, Horizontal, and Vertical Polarizations Above a Smooth Earth / 4.2.3:
Propagation Factors for a Cloud of Scatterers Above a Smooth Earth / 4.2.4:
Effects of Surface Roughness on Forward-Scattered Fields / 4.3:
Reflection Coefficient for Rough Surfaces / 4.3.1:
Shadowing / 4.3.2:
Depolarization / 4.3.3:
Echo from Targets That Are Above a Physically Rough Earth / 4.4:
Variation of Echo Power with Range / 4.4.1:
Range at Which Idealized R[superscript -4] and R[superscript -8] Curves Intersect / 4.4.2:
Relative Cross Sections for Circular Polarizations / 4.4.3:
A Cloud of Scatterers / 4.4.4:
Effects of the Diffuse Component on Target Echo / 4.4.5:
Multipath Effects on Echo from Land and Sea / 4.5:
Effects of Multipath Interference / 4.5.1:
Multipath Interference and Shadowing / 4.5.2:
Echo Fluctuations and Spectra / 5:
Introduction / 5.1:
Spectra and Autocorrelation Functions / 5.1.1:
Amplitude Statistics / 5.1.2:
Ground Echo Fluctuations / 5.2:
Nature of Ground Echoes / 5.2.1:
Temporal Amplitude Distributions for Terrain / 5.2.2:
Spatial Amplitude Statistics / 5.2.3:
Noncoherent Spectra and Autocorrelation Functions of Land / 5.2.4:
Coherent Land Doppler Spectra / 5.2.5:
Lincoln Laboratory Spectral Model / 5.2.6:
Power in Fast and Slow Land Spectra / 5.2.7:
Bragg Spectra from Inland Water / 5.2.8:
Concluding Remarks on Ground Echo Fluctuations / 5.2.9:
Visual Observations of Sea Echo / 5.3:
Characteristics Revealed by an A-Scope Display / 5.3.1:
Results from Fixed Range Sampling / 5.3.2:
Subjective Radar/Optical Comparisons and Anomalies / 5.3.3:
Observations of Bishop and of Lewis and Olin / 5.3.4:
Sea Echo Statistics and Spectra / 5.4:
Amplitude Distributions / 5.4.1:
Spectra Observed with Noncoherent Radar / 5.4.2:
Autocorrelation Functions / 5.4.3:
Noncoherent Spectra and Relationships with Sea Surface Mechanisms / 5.4.4:
Relative Power in Fast and Slow Fluctuations / 5.4.5:
Phase Coherent Doppler Spectra / 5.4.6:
Super Events / 5.4.7:
Sea Spikes / 5.4.8:
Concluding Remarks on Sea Echo Fluctuations and Spectra / 5.4.9:
Space-Time Clutter Amplitude Statistics / 5.5:
Compound Distributions / 5.5.1:
The K-Distribution / 5.5.2:
Rayleigh Modulated by Weibull Statistics / 5.5.3:
Average and Median Cross Sections / 6:
General Characteristics of [sigma degree] / 6.1:
Differences Between Average and Median Values / 6.1.2:
Smooth Surfaces and Small Grazing Angles / 6.1.3:
Classical Interference Effect / 6.1.4:
Problems Associated with Measuring [sigma degree] / 6.1.5:
Radar Cross Section for Land / 6.2:
Nature of [sigma degree] for Land / 6.2.1:
Sample [sigma degree] Land Measurements / 6.2.2:
Terrain Within Near Vertical and Plateau Regions / 6.2.3:
Ulaby and Dobson Tables for Terrain / 6.2.4:
Terrain Within Plateau and Low Grazing Angle Regions / 6.2.5:
Terrain at Extremely Low Grazing Angles / 6.2.6:
Concluding Remarks on Average Land Echo / 6.2.7:
Radar Cross Section for the Sea / 6.3:
Nature of [sigma degree] for the Sea / 6.3.1:
Range Dependence at Small Grazing Angles / 6.3.2:
Dependence on Grazing Angle / 6.3.3:
Grazing Angle Dependence at Low Frequencies / 6.3.4:
Nathanson Sea Clutter Tables / 6.3.5:
Extremely Low Grazing Angles / 6.3.6:
Dependence of [sigma degree] on Polarization / 6.3.7:
Dependence of [sigma degree] on the Wind and Sea / 6.3.8:
GIT Sea Clutter Models / 6.3.9:
Wavelength Dependence for the Sea / 6.3.10:
A Two-Scatterer Sea Clutter Model / 6.3.11:
Oil Slicks and Rain on Water / 6.3.12:
Concluding Remarks on Average Sea Echo / 6.3.13:
Interdependence of Polarization Characteristics / 7:
General Observations / 7.1:
Coherency, Statistical Independence, and Correlation / 7.1.2:
A Simplified Polarization Model for Rough Terrain / 7.1.3:
Use of the Polarization Model for the Moon / 7.1.4:
Polarization Model with Different Propagation Factors / 7.1.5:
Echo from Land, Principally Trees / 7.2:
Amplitude Fluctuations / 7.2.1:
Interdependence of Amplitude and Phase of Orthogonally Polarized Echoes / 7.2.2:
Average and Median Value Data, and Depression Angle Dependence / 7.2.3:
Relative Magnitude of Coherent and Incoherent Scattering from Trees / 7.2.4:
Sea Echo / 7.3:
Fluctuations of Orthogonally Polarized Components / 7.3.1:
Averages and Medians for Linear Polarization / 7.3.2:
Interdependence of Averages and Medians for Linear and Circular Polarizations / 7.3.3:
Coherent and Incoherent Scattering from the Sea / 7.3.4:
Bistatic Land and Sea Clutter / 8:
Bistatic RCS / 8.1:
Effective Illuminated Area / 8.2:
Depolarization and Reduction in RCS / 8.3:
In-Plane ([phis] = 0 and 180[degree]) Clutter / 8.4:
The Barton Model / 8.5:
Ulaby et al. Indoor Measurements / 8.6:
Out-of-Plane, Small Grazing Angle Data / 8.7:
Statistical Parameters / Appendix:
Basics / A.1:
Probability Density Functions and Distributions / A.2:
Normal or Gaussian Distribution / A.2.1:
Rayleigh Distribution / A.2.2:
Ricean Distribution / A.2.3:
Lognormal Distribution / A.2.4:
Weibull Distribution / A.2.5:
Chi-Square, Gamma, and Weinstock Distributions / A.2.6:
Standard Deviation of 10 log [sigma] When [sigma] Is Rayleigh Power Distributed / A.3:
Relationship Between 10 log([characters not reproducible]igma]/[sigma subscript m]) and Its Variance When [sigma] Is Lognormal / A.4:
About the Author
Index
Preface
References
Acknowledgments
17.
図書
Walter Koechner
目次情報:
続きを見る
Preface
Introduction
Energy Transfer Between Radiation and Atomic Transitions / 1:
Optical Amplification / 1.1:
Interaction of Radiation with Matter / 1.2:
Blackbody Radiation / 1.2.1:
Boltzmann's Statistics / 1.2.2:
Einstein's Coefficients / 1.2.3:
Phase Coherence of Stimulated Emission / 1.2.4:
Absorption and Optical Gain / 1.3:
Atomic Lineshapes / 1.3.1:
Absorption by Stimulated Transitions / 1.3.2:
Population Inversion / 1.3.3:
Creation of a Population Inversion / 1.4:
The Three-Level System / 1.4.1:
The Four-Level System / 1.4.2:
The Metastable Level / 1.4.3:
Laser Rate Equations / 1.5:
Comparison of Three- and Four-Level Lasers / 1.5.1:
Properties of Solid-State Laser Materials / 2:
Overview / 2.1:
Host Materials / 2.1.1:
Active Ions / 2.1.2:
Ruby / 2.2:
Nd:Lasers / 2.3:
Nd:YAG / 2.3.1:
Nd:Glass / 2.3.2:
Nd:Cr:GSGG / 2.3.3:
Nd:YLF / 2.3.4:
Nd:YVO[subscript 4] / 2.3.5:
Er:Lasers / 2.4:
Er:YAG / 2.4.1:
Er:Glass / 2.4.2:
Tunable Lasers / 2.5:
Alexandrite Laser / 2.5.1:
Ti:Sapphire / 2.5.2:
Cr:LiSAF / 2.5.3:
Tm:YAG / 2.5.4:
Yb:YAG / 2.6:
Laser Oscillator / 3:
Operation at Threshold / 3.1:
Gain Saturation / 3.2:
Circulating Power / 3.3:
Oscillator Performance Model / 3.4:
Conversion of Input to Output Energy / 3.4.1:
Laser Output / 3.4.2:
Relaxation Oscillations / 3.5:
Theory / 3.5.1:
Spike Suppression / 3.5.2:
Gain Switching / 3.5.3:
Examples of Laser Oscillators / 3.6:
Lamp-Pumped cw Nd:YAG Laser / 3.6.1:
Diode Side-Pumped Nd:YAG Laser / 3.6.2:
End-Pumped Systems / 3.6.3:
Ring Laser / 3.7:
Laser Amplifier / 4:
Single- and Multiple-Pass Pulse Amplifiers / 4.1:
Pulse Amplification / 4.1.1:
Nd:YAG Amplifiers / 4.1.2:
Nd:Glass Amplifiers / 4.1.3:
Multipass Amplifier Configurations / 4.1.4:
Regenerative Amplifiers / 4.2:
cw Amplifiers / 4.3:
Signal Distortions / 4.4:
Spatial Distortions / 4.4.1:
Temporal Distortions / 4.4.2:
Depopulation Losses / 4.5:
Amplified Spontaneous Emission / 4.5.1:
Prelasing and Parasitic Modes / 4.5.2:
Reduction of Depopulation Losses / 4.5.3:
Self-Focusing / 4.6:
Whole-Beam Self-Focusing / 4.6.1:
Examples of Self-focusing in Nd:YAG Lasers / 4.6.2:
Small-Scale Self-Focusing / 4.6.3:
Suppression of Self-Focusing / 4.6.4:
Optical Resonator / 5:
Transverse Modes / 5.1:
Intensity Distribution / 5.1.1:
Characteristics of a Gaussian Beam / 5.1.2:
Resonator Configurations / 5.1.3:
Stability of Laser Resonators / 5.1.4:
Diffraction Losses / 5.1.5:
Higher-Order Modes / 5.1.6:
Mode Selection / 5.1.7:
Active Resonator / 5.1.8:
Examples of Resonator Designs / 5.1.9:
Resonator Modeling and Software Packages / 5.1.10:
Longitudinal Modes / 5.2:
The Fabry-Perot Interferometer / 5.2.1:
Laser Resonator with Gain Medium / 5.2.2:
Longitudinal Mode Control / 5.2.3:
Injection Seeding / 5.2.4:
Intensity and Frequency Control / 5.3:
Amplitude Fluctuations / 5.3.1:
Frequency Tuning / 5.3.2:
Frequency Locking / 5.3.3:
Hardware Design / 5.4:
Unstable Resonators / 5.5:
Confocal Positive-Branch Unstable Resonator / 5.5.1:
Negative-Branch Unstable Resonator / 5.5.2:
Variable Reflectivity Output Couplers / 5.5.3:
Gain, Mode Size, and Alignment Sensitivity / 5.5.4:
Wavelength Selection / 5.6:
Optical Pump Systems / 6:
Pump Sources / 6.1:
Flashlamps / 6.1.1:
Continuous Arc Lamps / 6.1.2:
Laser Diodes / 6.1.3:
Pump Radiation Transfer Methods / 6.2:
Side-Pumping with Lamps / 6.2.1:
Side-Pumping with Diodes / 6.2.2:
End-Pumped Lasers / 6.2.3:
Face-Pumped Disks / 6.2.4:
Thermo-Optic Effects / 7:
Cylindrical Geometry / 7.1:
Temperature Distribution / 7.1.1:
Thermal Stresses / 7.1.2:
Photoelastic Effects / 7.1.3:
Thermal Lensing / 7.1.4:
Stress Birefringence / 7.1.5:
Compensation of Optical Distortions / 7.1.6:
Slab and Disk Geometries / 7.2:
Rectangular-Slab Laser / 7.2.1:
Slab Laser with Zigzag Optical Path / 7.2.2:
Disk Amplifiers and Lasers / 7.2.3:
End-Pumped Configurations / 7.3:
Thermal Gradients and Stress / 7.3.1:
Thermal Fracture Limit / 7.3.2:
Thermal Management / 7.4:
Liquid Cooling / 7.4.1:
Conduction Cooling / 7.4.2:
Air/Gas Cooling / 7.4.3:
Q-Switching / 8:
Q-Switch Theory / 8.1:
Fast Q-Switch / 8.1.1:
Slow Q-Switching / 8.1.2:
Continuously Pumped, Repetitively Q-Switched Systems / 8.1.3:
Mechanical Q-Switches / 8.2:
Electro-Optical Q-Switches / 8.3:
KDP and KD*P Pockels Cells / 8.3.1:
LiNbO[subscript 3] Pockels Cells / 8.3.2:
Prelasing and Postlasing / 8.3.3:
Depolarization Losses / 8.3.4:
Drivers for Electro-Optic Q-Switches / 8.3.5:
Acousto-Optic Q-Switches / 8.4:
Bragg Reflection / 8.4.1:
Device Characteristics / 8.4.2:
Passive Q-Switches / 8.5:
Cavity Dumping / 8.6:
Mode Locking / 9:
Pulse Formation / 9.1:
Passive Mode Locking / 9.2:
Liquid Dye Saturable Absorber / 9.2.1:
Coupled-Cavity Mode Locking / 9.2.2:
Kerr Lens Mode Locking / 9.2.3:
Semiconductor Saturable Absorber Mirror (SESAM) / 9.2.4:
Active Mode Locking / 9.3:
cw Mode Locking / 9.3.1:
Transient Active Mode Locking / 9.3.2:
Picosecond Lasers / 9.4:
AM Mode Locking / 9.4.1:
FM Mode Locking / 9.4.2:
Femtosecond Lasers / 9.5:
Laser Materials / 9.5.1:
Dispersion Compensation / 9.5.2:
Examples of Kerr Lens or SESAM Mode-Locked Femtosecond Lasers / 9.5.3:
Chirped Pulse Amplifiers / 9.5.4:
Nonlinear Devices / 10:
Nonlinear Optical Effects / 10.1:
Second-Order Nonlinearities / 10.1.1:
Third-Order Nonlinearities / 10.1.2:
Harmonic Generation / 10.2:
Basic Theory of Second Harmonic Generation / 10.2.1:
Phase Matching / 10.2.2:
Properties of Nonlinear Crystals / 10.2.3:
Intracavity Frequency Doubling / 10.2.4:
Third Harmonic Generation / 10.2.5:
Examples of Harmonic Generation / 10.2.6:
Optical Parametric Oscillators / 10.3:
Performance Modeling / 10.3.1:
Crystals / 10.3.2:
Quasi Phase Matching / 10.3.3:
Design and Performance / 10.3.4:
Raman Laser / 10.4:
Device Implementation / 10.4.1:
Optical Phase Conjugation / 10.5:
Basic Considerations / 10.5.1:
Material Properties / 10.5.2:
Focusing Geometry / 10.5.3:
Pump-Beam Properties / 10.5.4:
System Design / 10.5.5:
Damage of Optical Elements / 11:
Surface Damage / 11.1:
Inclusion Damage / 11.2:
Damage Threshold of Optical Materials / 11.3:
Scaling Laws / 11.3.1:
Laser Host Materials / 11.3.2:
Optical Glass / 11.3.3:
Nonlinear Crystals / 11.3.4:
Dielectric Thin Films / 11.3.5:
System Design Considerations / 11.4:
Choice of Materials / 11.4.1:
Design of System / 11.4.2:
System Operation / 11.4.3:
Laser Safety / Appendix A:
Conversion Factors and Constants / Appendix B:
Definition of Symbols / Appendix C:
References
Subject Index
Preface
Introduction
Energy Transfer Between Radiation and Atomic Transitions / 1:
18.
図書
von Herbert Schumann und Ingeborg Schumann
19.
図書
Alfredo H-S. Ang, Wilson H. Tang
目次情報:
続きを見る
Role of Probability in Engineering / 1:
Introduction / 1.1:
Uncertainty in Real-World Information / 1.2:
Uncertainty Associated with Randomness / 1.2.1:
Uncertainty Associated with Imperfect Modeling and Estimation / 1.2.2:
Design and Decision-Making Under Uncertainty / 1.3:
Planning and Design of Airport Pavement / 1.3.1:
Hydrologic Design / 1.3.2:
Design of Structures and Machines / 1.3.3:
Geotechnical Design / 1.3.4:
Construction Planning and Management / 1.3.5:
Photogrammetric, Geodetic, and Surveying Measurements / 1.3.6:
Control and Standards / 1.4:
Concluding Remarks / 1.5:
Basic Probability Concepts / 2:
Events and Probability / 2.1:
Characteristics of Probability Problems / 2.1.1:
Calculation of Probability / 2.1.2:
Elements of Set Theory / 2.2:
Definitions / 2.2.1:
Combination of Events / 2.2.2:
Operational Rules / 2.2.3:
Mathematics of Probability / 2.3:
Basic Axioms of Probability Addition Rule / 2.3.1:
Conditional Probability Multiplication Rule / 2.3.2:
Theorem of Total Probability / 2.3.3:
Bayes' Theorem / 2.3.4:
Concluding Remarks Problems / 2.4:
Analytical Models of Random Phenomena / 3:
Random Variables / 3.1:
Probability Distribution of a Random Variable / 3.1.1:
Main Descriptors of a Random Variable / 3.1.2:
Useful Probability Distributions / 3.2:
The Normal Distribution / 3.2.1:
The Logarithmic Normal Distribution / 3.2.2:
Bernoulli Sequence and the Binomial Distribution / 3.2.3:
The Geometric Distribution / 3.2.4:
The Negative Binomial Distribution / 3.2.5:
The Poisson Process and Poisson Distribution / 3.2.6:
The Exponential Distribution / 3.2.7:
The Gamma Distribution / 3.2.8:
The Hypergeometric Distribution / 3.2.9:
The Beta Distribution / 3.2.10:
Other Distributions / 3.2.11:
Multiple Random Variables / 3.3:
Joint and Conditional Probability Distributions / 3.3.1:
Covariance and Correlation / 3.3.2:
Conditional Mean and Variance / 3.3.3:
Functions of Random Variables / 3.4:
Derived Probability Distributions / 4.1:
Function of Single Random Variable / 4.2.1:
Function of Multiple Random Variables / 4.2.2:
Moments of Functions of Random Variables / 4.3:
Mean and Variance of a Linear Function / 4.3.1:
Product of Independent Variates / 4.3.3:
Mean and Variance of a General Function / 4.3.4:
Estimating Parameters from Observational Data / 4.4:
The Role of Statistical Inference in Engineering / 5.1:
Inherent Variability and Estimation Error / 5.1.1:
Classical Approach to Estimation of Parameters / 5.2:
Random Sampling and Point Estimation / 5.2.1:
Interval Estimation of the Mean / 5.2.2:
Problems of Measurement Theory / 5.2.3:
Interval Estimation of the Variance / 5.2.4:
Estimation of Proportion / 5.2.5:
Empirical Determination of Distribution Models / 5.3:
Probability Paper / 6.1:
The Normal Probability Paper / 6.2.1:
The Log-Normal Probability Paper / 6.2.2:
Construction of General Probability Paper / 6.2.3:
Testing Validity of Assumed Distribution / 6.3:
Chi-Square Test for Distribution / 6.3.1:
Kolmogorov-Smirnov Test for Distribution / 6.3.2:
Regression and Correlation Analyses / 6.4:
Basic Formulation of Linear Regression / 7.1:
Regression with Constant Variance / 7.1.1:
Regression with Nonconstant Variance / 7.1.2:
Multiple Linear Regression / 7.2:
Nonlinear Regression / 7.3:
Applications of Regression Analysis in Engineering / 7.4:
Correlation Analysis / 7.5:
Estimation of Correlation Coefficient / 7.5.1:
The Bayesian Approach / 7.6:
Basic Concepts-The Discrete Case / 8.1:
The Continuous Case / 8.3:
General Formulation / 8.3.1:
A Special Application of Bayesian Up-dating Process / 8.3.2:
Bayesian Concepts in Sampling Theory / 8.4:
Sampling from Normal Population / 8.4.1:
Error in Estimation / 8.4.3:
Use of Conjugate Distributions / 8.4.4:
Elements of Quality Assurance and Acceptance Sampling / 8.5:
Acceptance Sampling by Attributes / 9.1:
The Operating Characteristic (OC) Curve / 9.1.1:
The Success Run / 9.1.2:
The Average Outgoing Quality Curve / 9.1.3:
Acceptance Sampling by Variables / 9.2:
Average Quality Criterion, sigma Known / 9.2.1:
Average Quality Criterion, sigma Unknown / 9.2.2:
Fraction Defective Criterion / 9.2.3:
Multiple-Stage Sampling / 9.3:
Probability Tables / 9.4:
Table of Standard Normal Probability / Table A.1:
p-Percentile Values of the t-Distribution / Table A.2:
p-Percentile Values of the x 2 -Distribution / Table A.3:
Critical Values of D alpha; in the Kolmogorov-Smirnov Test / Table A.4:
Combinatorial Formulas / Appendix B:
Derivation of the Poisson Distribution / Appendix C:
References
Index
Role of Probability in Engineering / 1:
Introduction / 1.1:
Uncertainty in Real-World Information / 1.2:
20.
図書
editor, Gerald D. Fasman
目次情報:
続きを見る
Technical and commercial considerations / D. R. Bain ; G. A. Giles1:
Introduction / 1.1:
General considerations / 1.1.1:
Rigid containers / 1.1.2:
Caps, lids, closures and devices / 1.1.3:
Blow-moulded containers / 1.1.4:
Flexible packaging / 1.1.5:
Technologies to complement material developments / 1.2:
Machinery / 1.2.1:
Robotics / 1.2.2:
Amalgamation and integration in the machinery industry / 1.2.3:
Co-extrusion, co-injection and multi-centre moulding / 1.3:
Handling plastics containers / 1.4:
Lightweighting / 1.5:
Closing plastics packaging / 1.6:
Cost and complexity reduction issues / 1.7:
Conclusions / 1.8:
Injection moulding / G. Staines2:
Machines / 2.1:
The moulding process / 2.3:
Materials / 2.4:
Polypropylene / 2.4.1:
PET / 2.4.2:
Multicavity moulding / 2.5:
Multilayer moulding / 2.6:
Packaging products / 2.7:
Inspection methods / 2.8:
Design / 2.9:
Foaming technology / 2.10:
In-mould labeling (IML) / 2.11:
Decoration and finishing techniques / 2.12:
The future / 2.13:
Appendix: trouble-shooting / 2.14:
Acknowledgements
Extrusion blow-moulding / V. Hind3:
Variations on a theme / 3.1:
Continuous extrusion blow-moulding / 3.2.1:
Continuous extrusion accumulator blow-moulding / 3.2.2:
Co-extrusion blow-moulding / 3.2.3:
Extrusion stretch blow-moulding / 3.2.4:
Injection blow-moulding / 3.2.5:
Injection stretch blow-moulding / 3.2.6:
Plastic materials used in blow-moulding / 3.3:
Plastics consumption in blow-moulding / 3.3.2:
Blow-moulding plastics properties / 3.3.3:
Extrusion blow-moulding technology / 3.4:
Extruder screws and barrels / 3.4.1:
Extrusion heads / 3.4.2:
Parison cutting / 3.4.3:
Parison control / 3.4.4:
Machine movements and construction / 3.4.5:
Machine control systems / 3.4.6:
Calibration and component inflation blowing / 3.4.7:
Blow-moulds / 3.4.8:
Automation / 3.4.9:
Materials and products / 3.5:
The injection blow-moulding process / 3.5.2:
Comparison of injection blow-moulding and extrusion blow-moulding / 3.5.3:
Co-extrusion / 3.6:
Scrap encapsulation / 3.6.1:
High-technology co-extrusion / 3.6.2:
Co-extrusion end uses / 3.6.3:
Conclusion / 3.7:
Process identification / M. Wortley4:
Basic principles / 4.2:
History / 4.3:
Commercial processes / 4.4:
Rotary table machines / 4.4.1:
Tooling / 4.5:
Procrea / 4.6:
Materials processed on IB / 4.7:
Typical products on IB / 4.8:
Machine and process capabilities / 4.9:
One-stage injection stretch blow-moulding / R. Blakeborough5:
PET Materials / 5.1:
Key properties / 5.2.1:
Drying / 5.2.2:
Requirements for a reliable drying system / 5.2.3:
Process monitoring / 5.2.4:
PET bottle and preform design / 5.3:
Design and material properties / 5.3.1:
Container design considerations / 5.3.2:
Preform design / 5.3.3:
Integrated two-stage machines / 5.4:
One-stage machine construction / 5.5:
Mould components and major processing factors on a classic four-station one-stage machine / 5.5.1:
Hot-fill PET bottles / 5.6:
Quality control procedures / 5.7:
Preform / 5.7.1:
Container / 5.7.2:
Additional tests for pressurised containers / 5.7.3:
Additional tests for hot-fill containers / 5.7.4:
Additional tests for returnable/refillable PET bottles / 5.7.5:
Two-stage injection stretch blow-moulding / M. Koch6:
The principles of the two-stage process / 6.1:
Technological PET material characteristics / 6.1.2:
Other plastic materials / 6.1.3:
Preform manufacturing / 6.2:
The process and its parameters / 6.2.1:
Injection moulding machine / 6.2.2:
Resin drying / 6.2.3:
Plasticising / 6.2.4:
Mould / 6.2.5:
Injection gates / 6.2.6:
Cavities / 6.2.7:
Injection / 6.2.8:
Melt distribution / 6.2.9:
Post cooling / 6.2.10:
Auxiliary equipment / 6.2.11:
Preform and production quality / 6.2.12:
Bottle Manufacturing / 6.3:
Preform re-heating / 6.3.1:
Stretch blow-moulding equipment / 6.3.3:
Mould technology / 6.3.4:
Line equipment / 6.3.5:
Two-stage vs single-stage process/equipment / 6.3.7:
Container quality / 6.4:
Dimensional stability / 6.4.1:
Functional quality / 6.4.2:
Container and preform design principles / 6.5:
Container design / 6.5.1:
Suppliers / 6.5.2:
References
Abbreviations
Thermoforming technologies for the manufacture of rigid plastics packaging / D.R. Bain7:
Sheet extrusion / 7.1:
Heating the sheet / 7.3:
Equipment and the moulding process / 7.4:
Polystyrene (PS) / 7.5:
Polyvinyl chloride (PVC) / 7.5.3:
High-density polyethylene (HDPE) / 7.5.4:
Polypropylene (PP) / 7.5.5:
Amorphous polyethylene terephthalate (APET) / 7.5.6:
Crystalline polyethylene terephthalate (CPET) / 7.5.7:
Applications / 7.6:
Blown film / M. C. Andrews ; K. J. Williams7.7:
A brief history / 8.1:
Why blown film? / 8.1.2:
Blow film extrusion technology / 8.2:
Blending / 8.2.1:
Extrusion / 8.2.2:
Blown film die design / 8.2.3:
Blown film cooling / 8.2.4:
Automatic thickness control / 8.2.5:
Bubble stabilisation / 8.2.6:
Bubble collapsing / 8.2.7:
Primary haul-off systems / 8.2.8:
Web handling / 8.2.9:
Slitting and winding / 8.2.10:
Control systems / 8.2.11:
Filling, labelling and handleability of plastic containers / D. Kaye9:
The source of the container supply / 9.1:
Supplying containers to the packing line / 9.3:
Remote container manufacturing / 9.3.1:
In-house container manufacture / 9.3.2:
The filling/packing line / 9.4:
The first machine in the line / 9.5:
Container cleaning / 9.5.1:
Container pre-labelling / 9.5.2:
Container orientation / 9.5.3:
Product filling / 9.6:
Level filling / 9.6.1:
Filling by volume / 9.6.2:
Filling by weight / 9.6.3:
Handling of plastic containers through the filling machine / 9.6.4:
Container capping/closing / 9.7:
Cap/closure types / 9.7.1:
Closure application / 9.7.2:
Method of cap transfer / 9.7.3:
Handling of containers through the capping machine / 9.7.4:
Closure torque control / 9.7.5:
Container decoration / 9.8:
Labelling machines / 9.8.1:
Handling of containers through the labelling machine / 9.8.2:
The importance of label adhesion / 9.8.3:
Sleeving / 9.8.4:
End of line packaging / 9.9:
Main types of packaging formats / 9.9.1:
Container laning / 9.9.2:
Palletising / 9.10:
Container conveying and layout considerations / 9.11:
Conveying of empty containers / 9.11.1:
Bloc and Superbloc units / 9.11.2:
Conveying of filled containers / 9.11.3:
Pack conveying / 9.11.4:
Plastic closures used in the consumer packaging market / B. Guglielmini10:
Closure systems / 10.1:
Different types of containers / 10.2.1:
Key features and functions of a closure / 10.2.2:
Typical plastics materials used for closures / 10.3:
Polyethylene (PE) / 10.3.1:
Technical polymers / 10.3.2:
Barrier polymers / 10.3.5:
Different technologies for the production of plastic closures / 10.4:
Compression moulding / 10.4.1:
Thermoforming / 10.4.3:
New trends in the closure industry / 10.5:
Co-injection and multi-centre moulding for bi-colour or multi-material products / 10.5.1:
Barrier technologies used for plastic closures / 10.5.2:
List of Polymers
Index
Technical and commercial considerations / D. R. Bain ; G. A. Giles1:
Introduction / 1.1:
General considerations / 1.1.1:
21.
図書
Joint College Curriculum Workshop in Computer Science, Engineering and Data Processing, 5, Orlando, Fl.,1978.2.2-3
出版情報:
1978
子書誌情報:
loading…
所蔵情報:
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22.
図書
[by] Richard J. Harris
出版情報:
New York : Academic Press, c1975 xiv, 332 p. ; 24 cm
子書誌情報:
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所蔵情報:
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目次情報:
続きを見る
The Forest before the Trees / 1:
Why Statistics? / 1.0:
Statistics as a Form of Social Control / 1.01:
Objections to Null Hypothesis Significance Testing / 1.02:
Should Significance Tests be Banned? / 1.03:
Math Modeling's the Ultimate Answer / 1.04:
Some Recent Developments in Univariate Statistics / 1.05:
Why Multivariate Statistics? / 1.1:
Bonferroni Adjustment: An Alternative to Multivariate Statistics / 1.1.1:
Why Isn't Bonferroni Adjustment Enough? / 1.1.2:
A Heuristic Survey of Statistical Techniques / 1.2:
Student's t test / 1.2.1:
One-Way Analysis of Variance / 1.2.2:
Hotelling's T[superscript 2] / 1.2.3:
One-Way Multivariate Analysis of Variance / 1.2.4:
Higher Order Analysis of Variance / 1.2.5:
Higher Order Manova / 1.2.6:
Pearson r and Bivariate Regression / 1.2.7:
Multiple Correlation and Regression / 1.2.8:
Path Analysis / 1.2.9:
Canonical Correlation / 1.2.10:
Analysis of Covariance / 1.2.11:
Principal Component Analysis / 1.2.12:
Factor Analysis / 1.2.13:
Structural Equation Modeling / 1.2.14:
Learning to Use Multivariate Statistics / 1.3:
A Taxonomy of Linear Combinatons / 1.3.1:
Why the Rest of the Book? / 1.3.2:
Quiz 1 See How Much You Know after Reading Just One Chapter!
Sample Answers to Quiz 1
Multiple Regression: Predicting One Variable from Many / 2:
Data Set 1
The Model / 2.1:
Choosing Weights / 2.2:
Least Squares Criterion / 2.2.1:
Maximum Correlation Criterion / 2.2.2:
The Utility of Matrix Algebra / 2.2.3:
Independence of Irrelevant Parameters / 2.2.4:
Relating the Sample Equation to the Population Equation / 2.3:
R[subscript x] versus S[subscript x] versus x'x as the Basis for MRA / 2.3.1:
Specific Comparisons / 2.3.2:
Illustrating Significance Tests / 2.3.3:
Stepwise Multiple Regression Analysis / 2.3.4:
Computer Programs for Multiple Regression / 2.4:
Computer Logic and Organization / 2.4.1:
Sage Advice on Use of Computer Programs / 2.4.2:
Computerized Multiple Regression Analysis / 2.4.3:
Some General Properties of Covariance Matrices / 2.5:
Measuring the Importance of the Contribution of a Single Variable / 2.6:
Anova via MRA / 2.7:
Alternatives to the Least-Squares Criterion / 2.8:
Path analytic Terminology / 2.9:
Preconditions for Path Analysis / 2.9.2:
Estimating and Testing Path coefficients / 2.9.3:
Decomposition of Correlations into Components / 2.9.4:
Overall Test of Goodness of fit / 2.9.5:
Examples / 2.9.6:
Some Path-Analysis References / 2.9.7:
Demonstration Problem
Answers
Some Real Data and a Quiz Thereon
Path Analysis Problem
Answers to Path Analysis Problem
Hotelling's T[superscript 2]: Tests on One or Two Mean Vectors / 3:
Single-Sample t and T[superscript 2] / 3.1:
Linearly Related Outcome Variables / 3.2:
Two-Sample t and T[superscript 2] / 3.3:
Profile Analysis / 3.4:
Discriminant Analysis / 3.5:
Relationship between T[superscript 2] and MRA / 3.6:
Assumptions Underlying T[superscript 2] / 3.7:
The Assumption of Equal Covariance Matrices / 3.7.1:
Known Covariance Matrix / 3.7.2:
The Assumption of Multivariate Normality / 3.7.3:
Analyzing Repeated-Measures Designs via T[superscript 2] / 3.8:
Single-Symbol Expressions for Simple Cases / 3.9:
Computerized T[superscript 2] / 3.10:
Single-Sample and Two-Sample T[superscript 2] / 3.10.1:
Within-Subjects Anova / 3.10.2:
Demonstration Problems
Multivariate Analysis of Variance: Differences Among Several Groups on Several Measures / 4:
One-Way (Univariate) Analysis of Variance / 4.1:
The Overall Test / 4.1.1:
Multiple Profile Analysis / 4.1.2:
Multiple Discriminant Analysis / 4.4:
Greatest Characteristic Roots versus Multiple-Root Tests in Manova / 4.5:
"Protected" Univariate Tests / 4.5.1:
Simulataneous Test Procedures and Union Intersection / 4.5.2:
Invalidity of Partitioned-U Tests of Individual Roots / 4.5.3:
Simplified Coefficients as a Solution to the Robustness Problem / 4.5.4:
Finite-Intersection Tests / 4.5.5:
Simple Cases of Manova / 4.6:
Higher Order Anova: Interactions / 4.7:
Within-Subject Univariate Anova Versus Manova / 4.8:
Computerized Manova / 4.10:
Generic Setup for SPSS MANOVA / 4.10.1:
Supplementary Computations / 4.10.2:
Pointing and Clicking to a Manova on SPSS PC / 4.10.3:
Generic Setup for SAS PROC GLM / 4.10.4:
Canonical Correlation: Relationships Between Two Sets of Variables / 5:
Formulae for Computing Canonical Rs / 5.1:
Heuristic Justification of Canonical Formulae / 5.1.1:
Simple Cases of Canonical Correlations / 5.1.2:
Example of a Canonical Analysis / 5.1.3:
Relationships to Other Statistical Techniques / 5.2:
Likelihood-Ratio Tests of Relationships between Sets of Variables / 5.3:
Generalization and Specialization of Canonical Analysis / 5.4:
Testing the Independence of m Sets of Variables / 5.4.1:
Repeated-Battery Canona / 5.4.2:
Rotation of Canonical Variates / 5.4.3:
The Redundancy Coefficient / 5.4.4:
What's Missing from Canonical Analysis? / 5.4.5:
Computerized Canonical Correlation / 5.5:
Matrix-Manipulation Systems / 5.5.1:
SAS PROC CANCORR / 5.5.2:
Canona via SPSS MANOVA / 5.5.3.:
SPSS Canona From Correlation Matrix: Be Careful / 5.5.4:
Demonstration Problems and Some Real Data Employing Canonical Correlation
Principal Component Analysis: Relationships Within a Single Set of Variables / 6:
Definition of Principal Components / 6.1:
Terminology and Notation in PCA and FA / 6.1.1:
Scalar Formulae for Simple Cases of PCA / 6.1.2:
Computerized PCA / 6.1.3:
Additional Unique Properties (AUPs) of PCs / 6.1.4:
Interpretation of Principal Components / 6.2:
Uses of Principal Components / 6.3:
Uncorrelated Contributions / 6.3.1:
Computational Convenience / 6.3.2:
Principal Component Analysis as a Means of Handling Linear Dependence / 6.3.3:
Examples of PCA / 6.3.4:
Quantifying Goodness of Interpretation of Components / 6.3.5:
Significance Tests for Principal Components / 6.4:
Sampling Properties of Covariance-Based PCs / 6.4.1:
Sampling Properties of Correlation-Based PCs / 6.4.2:
Rotation of Principal Components / 6.5:
Basic Formulae for Rotation / 6.5.1:
Objective Criteria for Rotation / 6.5.2:
Examples of Rotated PCs / 6.5.3:
Individual Scores on Rotated PCs / 6.5.4:
Uncorrelated-Components Versus Orthogonal-Profiles Rotation / 6.5.5:
Factor Analysis: The Search for Structure / 7:
Communalities / 7.1:
Theoretical Solution / 7.2.1:
Empirical Approximations / 7.2.2:
Iterative Procedure / 7.2.3:
Is the Squared Multiple Correlation the True Communality? / 7.2.4:
Factor Analysis Procedures Requiring Communality Estimates / 7.3:
Principal Factor Analysis / 7.3.1:
Triangular (Choleski) Decomposition / 7.3.2:
Centroid Analysis / 7.3.3:
Methods Requiring Estimate of Number of Factors / 7.4:
Other Approaches to Factor Analysis / 7.5:
Factor Loadings versus Factor Scores / 7.6:
Factor Score Indeterminacy / 7.6.1:
Relative Validities of Loadings-Derived versus Scoring-Coefficient-Derived Factor Interpretations / 7.6.2:
Regression-Based Interpretation of Factors is Still a Hard Sell / 7.6.3:
Relative Merits of Principal Component Analysis versus Factor Analysis / 7.7:
Similarity of Factor Scoring Coefficients / 7.7.1:
Bias in Estimates of Factor Loadings / 7.7.2:
Computerized Exploratory Factor Analysis / 7.8:
Confirmatory Factor Analysis / 7.9:
Sas Proc Calis / 7.9.1:
The Forest Revisited / 8:
Scales of Measurement and Multivariate Statistics / 8.1:
Effects of Violations of Distributional Assumptions in Multivariate Analysis / 8.2:
Nonlinear Relationships in Multivariate Statistics / 8.3:
The Multivariate General Linear Hypothesis / 8.4:
General Approach and Examples / 8.5:
SEM Is Not a General Model for Multivariate Statistics / 8.5.2:
Other User-Friendly SEM Programs / 8.5.3:
Where to Go from Here / 8.6:
Summing Up / 8.7:
Finding Maxima and Minima of Polynomials / Digression 1:
Derivatives and Slopes / D1.1:
Optimization Subject to Constraints / D1.2:
Matrix Algebra / Digression 2:
Basic Notation / D2.1:
Linear Combinations of Matrices / D2.2:
Multiplication of Matrices / D2.3:
Permissible Manipulations / D2.4:
Inverses / D2.5:
Determinants / D2.6:
Some Handy Formulae for Inverses and Determinants in Simple Cases / D2.7:
Rank / D2.8:
Matrix Calculus / D2.9:
Partitioned Matrices / D2.10:
Characteristic Roots and Vectors / D2.11:
Solution of Homogeneous Systems of Equations / D2.12:
Solution of Cubic Equations / Digression 3:
Statistical Tables / Appendix A:
(Why omitted from this edition) / A.1 - A.4:
Greatest Characteristic Root Distribution / A.5:
Computer Programs Available from the Author / Appendix B:
cvinter: p values and Critical Values for Univariate Statistics / B.1:
gcrinter: Critical Values for the Greatest Characteristic Root (g.c.r.) Distribution / B.2:
Derivations / Appendix C:
Per-Experiment and Experimentwise Error Rates for Bonferroni-Adjusted Tests / Derivation 1.1:
Scalar Formulae for MRA with One, Two, and Three Predictors / Derivation 2.1:
Coefficients That Minimize Error Also Maximize Correlation / Derivation 2.2:
Maximizing r via Matrix Algebra / Derivation 2.3:
Variances of b[subscript j]s and of Linear Combinations Thereof / Derivation 2.4:
Drop in R[superscript 2] = b[superscript 2][subscript j](1 - [characters not reproducible]) / Derivation 2.6:
MRA on Group-Membership Variables Yields Same F As Anova / Derivation 2.7:
Unweighted Means and Least-Squares Anova Are Identical in the 2[superscript n] Design / Derivation 2.8:
T[superscript 2] and Associated Discriminant Function / Derivation 3.1:
Single-Sample T[superscript 2]
Two-Sample T[superscript 2]
Two-Sample t Versus Pearson r With Group-Membership Variables / Derivation 3.2:
Single-Sample t Test versus "Raw-Score" r[subscript xy]
T[superscript 2] Versus MRA
Maximizing F(a) in Manova / Derivation 4.1:
Canonical Correlation and Canonical Variates / Derivation 5.1:
Canonical Correlation as "Mutual Regression Analysis" / Derivation 5.2:
Relationship between Canonical Analysis and Manova / Derivation 5.3:
Principal Components / Derivation 6.1:
PC Coefficients Define Both Components in Terms of Xs and Xs in Terms of PCs / Derivation 6.2:
What Does Rotation of Loadings Do to Coefficients? / Derivation 6.3:
Near Equivalence of PCA and Equal-Communalities PFA / Derivation 7.1:
References
Index
The Forest before the Trees / 1:
Why Statistics? / 1.0:
Statistics as a Form of Social Control / 1.01:
23.
図書
editor, Gerald D. Fasman
目次情報:
続きを見る
Principles of automation in the dairy industry / W. Kirkland1:
Introduction and historical development / 1.1:
Automation and control of dairy processes / 1.2:
Process equipment / 1.2.1:
Sensors and actuators / 1.2.2:
Electrical cabling, fieldbus technology and smart devices / 1.2.3:
Programmable logic controllers / 1.2.4:
Soft programmable logic controllers and embedded controllers / 1.2.5:
Supervisory control and data acquisition / 1.2.6:
Network communications and systems integration / 1.2.7:
Manufacturing execution systems / 1.2.8:
Enterprise resource planning / 1.2.9:
Designing an automated process line / 1.3:
User requirements specification / 1.3.1:
Functional design specification / 1.3.2:
Design implementation: project management / 1.3.3:
The future / 1.4:
Further reading
Primary milk production / A. L. Kelly2:
Introduction / 2.1:
Global milk production trends / 2.1.1:
Farm production trends / 2.1.2:
Husbandry management and milk quality / 2.2:
Lactation cycle and milk quality / 2.2.1:
Effect of diet on milk composition / 2.2.3:
Influence of genetic factors and breed on milk quality / 2.2.4:
Mastitis, somatic cell counts and milk quality / 2.2.5:
Milking and feeding systems / 2.3:
Milking machines and effects on milk quality / 2.3.1:
Automated concentrate feeding systems / 2.3.2:
Bulk storage, collection and transportation / 2.4:
Milk cooling and storage / 2.4.1:
Milk collection and handling in developing countries / 2.4.2:
Quality payment schmes and quality optimization / 2.5:
Mastitis control strategies / 2.5.1:
Other animal welfare issues / 2.5.2:
Milk payment and acceptance schemes / 2.5.3:
Acknowledgements
References
Liquid milk / D. D. Muir ; A. Y. Tamime3:
Milk composition / 3.1:
Proteins in milk / 3.1.1:
Lactose and minerals / 3.1.2:
Milk fat / 3.1.3:
Heat-treated milk products / 3.2:
Chemical effects / 3.2.1:
Destruction of microorganisms and enzymes / 3.2.2:
Effects on other milk constituents / 3.2.3:
From farm to factory / 3.3:
Milk collection / 3.3.1:
Milk distribution / 3.3.2:
Delivery to the factory / 3.3.3:
Extension of the shelf-life of raw milk / 3.3.4:
At the factory / 3.3.5:
Milk handling in dairies / 3.4:
Reception of milk / 3.4.1:
Milk processing / 3.4.2:
Pasteurisation systems / 3.4.3:
Extended-shelf-life milk / 3.4.4:
High-temperature pasteurisation / 3.4.5:
In-container sterilisation / 3.4.6:
Ultra high temperature (UHT) / 3.4.7:
Recombination technology / 3.5:
Packaging lines and storage / 3.6:
Statistical process control / 3.7:
Acknowledgement
Concentrated and dried dairy products / P. De Jong ; R. E. M. Verdurmen4:
Evaporation / 4.1:
Drying / 4.1.2:
Product and process technology / 4.2:
Evaporated and dried products / 4.2.1:
Process design and operation / 4.2.2:
Quality control / 4.3:
Control of process conditions / 4.3.1:
Control of product properties / 4.3.2:
High fat content dairy products / H. M. P. Ranjith ; K. K. Rajah5:
Properties of milk fat / 5.1:
Melting and crystallisation / 5.1.2:
High fat content emulsions: oil-in-water type / 5.2:
Centrifugal separation / 5.2.1:
Control of fat content in creams / 5.2.2:
Cleaning of milk separators / 5.2.3:
Description of creams / 5.2.4:
Processing of cream / 5.2.5:
Factors affecting cream quality / 5.2.6:
Processing recommendations for high fat content products / 5.3:
Properties required of high fat emulsions for table spreads / 5.3.1:
Butter manufacture / 5.3.2:
Anhydrous milk fat / 5.3.3:
Ghee / 5.3.4:
Butterschmalz / 5.3.5:
Fractionation of milk fat / 5.4:
Yoghurt and other fermented milks / R. K. Robinson ; E. Latrille6:
Background / 6.1:
Classification of fermented milks / 6.2:
Mesophilic microfloras / 6.2.1:
Thermophilic and/or therapeutic microfloras / 6.2.2:
Microfloras including yeasts and lactic acid bacteria / 6.2.3:
Microfloras including moulds and lactic acid bacteria / 6.2.4:
Manufacture of fermented milks / 6.3:
Raw materials / 6.3.1:
Fortification of the milk / 6.3.2:
Heat treatment of the milk / 6.3.3:
Microbiology of the processes / 6.3.4:
Fermentation / 6.3.5:
Final processing / 6.3.6:
Retail products / 6.3.7:
Options for automation and mechanisation / 6.4:
Processing plants / 6.4.1:
Quick chilling, cold storage and retrieval of products / 6.4.4:
Product recovery / 6.4.5:
Automation in handling systems for finished product / 6.4.6:
Recent developments in some fermented-milk products / 6.5:
Long-life yoghurt / 6.5.1:
Strained or concentrated yoghurt / 6.5.2:
Dried fermented milks / 6.5.3:
Frozen yoghurt / 6.5.4:
Drinking yoghurt / 6.5.5:
Process control systems / 6.6:
Controlled variables / 6.6.1:
New reliable sensors for fermentation monitoring / 6.6.3:
Advanced monitoring: prediction of the final process time / 6.6.4:
Statistical process control and future trends / 6.6.5:
Cheddar cheese production / B. A. Law7:
Cheesemaking as process engineering / 7.1:
Coagulation of milk and curd formation / 7.3:
Vat design / 7.3.1:
Cutting and stirring / 7.3.2:
Theoretical aids to the optimisation of the cutting and scalding stage / 7.3.3:
Curd draining, cheddaring, milling and salting / 7.4:
Production of pressed cheese blocks ready for maturation / 7.5:
Storage and maturation of cheese / 7.6:
Semi-hard cheeses / G. Van Den Berg8:
Cheese varieties involved / 8.1:
General technology / 8.1.2:
General historical background / 8.1.3:
Basic technology / 8.2:
Milk handling and processing / 8.3:
Milk fat standardisation / 8.3.1:
Control of sporeformers by bactofugation and microfiltration / 8.3.2:
Pasteurisation / 8.3.3:
Cheese vats and curd production / 8.4:
Horizontal vats / 8.4.1:
Vertical vats / 8.4.2:
Preparation of the curd / 8.4.3:
Instrumentation to control and automate curd cutting time / 8.4.4:
Curd drainage and moulding / 8.5:
Buffer tanks / 8.5.1:
Casomatic systems / 8.5.2:
Pre-pressing vats / 8.5.3:
Pressing / 8.6:
Cheese pressing / 8.6.1:
Mould handling / 8.6.2:
Brining / 8.7:
Brine composition / 8.7.1:
Hygiene measures / 8.7.2:
Brining systems / 8.7.3:
Dry salting / 8.7.4:
Treatment during natural ripening / 8.8:
Cheese handling systems / 8.8.1:
Conditioning of the ripening room / 8.8.2:
Soft fresh cheese and soft ripened cheese / H. Pointurier9:
Characteristics of ripened and fresh soft cheeses / 9.1:
Soft ripened cheeses (les fromages a pate molle) / 9.2.1:
Fresh cheese (fromage frais) / 9.2.2:
The key phases in the process plant for soft cheese manufacture / 9.3:
Soft ripened cheeses / 9.3.1:
Soft fresh cheeses / 9.3.2:
Cottage cheese / 9.3.3:
Mechanisation and automation solutions / 9.4:
Pasta Filata cheeses / O. Salvadori del Prato9.4.1:
General introduction and basic classification / 10.1:
Technology of Pasta Filata cheeses / 10.2:
Mozzarella and soft Pasta Filata cheeses / 10.2.1:
Provolone and hard Pasta Filata cheeses / 10.2.2:
Mechanisation and control of Pasta Filata cheese production / 10.3:
Coagulators or cheese vats / 10.3.1:
Filatrici and moulding machines / 10.3.2:
Hardening and brining / 10.3.3:
Packaging / 10.3.4:
Miscellaneous systems / 10.3.5:
Quality control of Pasta Filata cheese processing / 10.4:
Rheological properties / 10.4.1:
Microstructure / 10.4.2:
Hazard analysis critical control points / 10.4.3:
Membrane processing / H.C. Van der Horst11:
Principles of membrane processes / 11.1:
Process control and automation of membrane processes / 11.2:
Membrane applications for milk / 11.3:
Milk concentration by reverse osmosis / 11.3.1:
Demineralisation by nanofiltration / 11.3.2:
Milk protein standardisation by ultrafiltration / 11.3.3:
Milk protein concentration by ultrafiltration and microfiltration / 11.3.4:
Removal of bacteria, spores and somatic cells from raw milk by microfiltration / 11.3.5:
Applications to cheese / 11.4:
Soft and hard cheese varieties / 11.4.1:
Applications for whey / 11.5:
Concentration of whey by reverse osmosis / 11.5.1:
Demineralisation of whey by nanofiltration / 11.5.2:
Whey protein concentrate production by ultrafiltration / 11.5.3:
Whey protein fractionation / 11.5.4:
Miscellaneous processes / 11.6:
Clarification of brine / 11.6.1:
Recycling of cleaning solutions / 11.6.2:
Nonproduct operations, services and waste handling / L. Robertson12:
Nonproduct operation and maintenance / 12.1:
Plant commissioning / 12.1.1:
Start-up and shut-down / 12.1.2:
Maintenance, including predictive or planned maintenance / 12.1.3:
Cleaning-in-place operation, control and automation / 12.1.4:
Supply and control of services / 12.2:
Water quality / 12.2.1:
Electricity / 12.2.2:
Steam / 12.2.3:
Hot water / 12.2.4:
Chilled water / 12.2.5:
Compressed air / 12.2.6:
Dryer air / 12.2.7:
Cogeneration / 12.2.8:
Waste heat recovery and re-use / 12.2.9:
Waste handling / 12.3:
Legal issues / 12.3.1:
Waste minimisation / 12.3.2:
Waste characterisation / 12.3.3:
Waste product and by-product treatment / 12.3.4:
Nutrient and biological oxygen demand reduction / 12.3.5:
Index
Principles of automation in the dairy industry / W. Kirkland1:
Introduction and historical development / 1.1:
Automation and control of dairy processes / 1.2:
24.
図書
edited by R. Hettich
目次情報:
続きを見る
Introduction to Microfluidics / Chapter 1:
Abstract
History of Microfluidics / 1.1:
The beginning: Gas chromatography and capillary electrophoresis / 1.2.1:
The microfluidic advantage / 1.2.2:
Modular separation, reaction and hybridization systems / 1.2.3:
Integrated systems / 1.2.4:
Fluidics and Transport Fundamentals / 1.3:
The continuum approximation / 1.3.1:
Laminar flow / 1.3.2:
Diffusion in microfluidic systems / 1.3.3:
Surface forces and droplets / 1.3.4:
Pumps and valves / 1.3.5:
Electrokinetics / 1.3.6:
Thermal management / 1.3.7:
Device Fabrication / 1.4:
Materials / 1.4.1:
Fabrication and assembly / 1.4.2:
Biological Applications / 1.5:
Genetic analysis (DNA/RNA) / 1.5.1:
Proteomics / 1.5.2:
Cellular assays / 1.5.3:
Drug delivery and compatibility / 1.5.4:
The Future / 1.6:
Potential demand/market for microfluidic devices / 1.6.1:
Current products / 1.6.2:
Challenges and the future / 1.6.3:
References
Materials and Microfabrication Processes for Microfluidic Devices / Chapter 2:
Introduction / 2.1:
Silicon Based Materials / 2.2:
Micromachining of silicon / 2.2.1:
Bulk micromachining / 2.2.2:
Surface micromachining / 2.2.3:
Glass Based Materials / 2.3:
Microfabrication in glass / 2.3.1:
Wafer Bonding / 2.4:
Fusion bonding / 2.4.1:
Anodic bonding / 2.4.2:
Adhesive bonding / 2.4.3:
Polymers / 2.5:
Microfabrication / 2.5.1:
Polymer materials / 2.5.2:
Conclusion / 2.6:
Interfacing Microfluidic Devices with the Macro World / Chapter 3:
Typical Requirements for Microfluidic Interfaces / 3.1:
Review of Microfluidic Interfaces / 3.3:
World-to-chip interfaces / 3.3.1:
Chip-to-world interfaces / 3.3.2:
Future Perspectives / 3.4:
Genetic Analysis in Miniaturized Electrophoresis Systems / Chapter 4:
Status of genetic analyses / 4.1:
Genetic analysis by miniaturized electrophoresis system / 4.1.2:
Microchip Electrophoresis for Genomic Analysis / 4.2:
Material and fabrication of electrophoresis microchips / 4.2.1:
Theory of gel electrophoresis of DNA / 4.2.2:
Gel matrices / 4.2.3:
Novel DNA separation strategies on microchips / 4.2.4:
Surface coating methods for microchannel walls / 4.2.5:
Parallelization in Microchip Electrophoresis / 4.3:
Integration in Microchip Electrophoresis for Genetic Analysis / 4.4:
Sample preparation on microchip / 4.4.1:
System integration / 4.4.2:
Commercial Microfluidic Instruments for Genetic Analyses / 4.5:
Commercial microchip electrophoresis instruments for genetic analysis / 4.5.1:
Integrated microfluidic instruments for genetic analyses / 4.5.2:
Microfluidic Markets and Future Perspectives / 4.6:
Microfluidic Systems for Protein Separations / Chapter 5:
Advantages of microfluidic chips for protein separations / 5.1:
Limitations of microfluidic chips in proteomics applications / 5.1.2:
Substrates used for proteomic analysis / 5.1.3:
Microfluidic Chips for Protein Separation / 5.2:
Microchip-based electrophoretic techniques / 5.2.1:
Microchip chromatography / 5.2.2:
Integrated Analysis in Microchips / 5.3:
Integration of sample preparation with analysis / 5.3.1:
Multi-dimensional separation in microchips / 5.3.2:
Chips integrated with mass spectrometry / 5.3.3:
Future Directions / 5.4:
Microfluidic Systems for Cellular Applications / Chapter 6:
Physiological advantages / 6.1:
Biological advantages / 6.1.2:
Economical advantages / 6.1.3:
Microfluidic Technology for Cellular Applications / 6.2:
Microfluidic cell isolation/separation / 6.2.1:
Microfluidic cell culture / 6.2.2:
Microfluidic cell analysis / 6.2.3:
Commercialization of Microfluidic Technology / 6.3:
Concluding Remarks / 6.4:
Microfluidic Systems for Engineering Vascularized Tissue Constructs / Chapter 7:
Generating 2D Vascularized Tissue Constructs Using Microfluidic Systems / 7.1:
Generating 3D Vascularized Tissue Constructs Using Microfluidic Systems / 7.3:
Hydrogel-based Microfluidic Systems for Generating Vascularized Tissue Constructs / 7.4:
Mathematical Modeling to Optimize the Microfluidic Systems for Generating Vascularized Tissue Constructs / 7.5:
Future Challenges / 7.6:
Conclusions / 7.7:
High Throughput Screening Using Microfluidics / Chapter 8:
Cell-Based Assays / 8.1:
High throughput cell culture / 8.2.1:
Cell sorting for high throughput applications / 8.2.2:
Biochemical Assays / 8.3:
PCR / 8.3.1:
Electrophoresis / 8.3.2:
Others / 8.3.3:
Drug Screening Applications / 8.4:
Users and Developers of [mu]F HTS Platforms / 8.5:
Users: Research labs, academic screening facilities, and pharmaceutical / 8.5.1:
Commercialized products in HTS / 8.5.2:
Acknowledgements / 8.6:
Microfluidic Diagnostic Systems for the Rapid Detection and Quantification of Pathogens / Chapter 9:
Infectious pathogens and their prevalence / 9.1:
Traditional pathogen detection methods / 9.1.2:
Microfluidic techniques / 9.1.3:
Review of Research / 9.2:
Pathogen detection/quantification techniques based on detecting whole cells / 9.2.1:
Pathogen detection/quantification techniques based on detecting metabolites released or consumed / 9.2.2:
Pathogen detection/quantification through microfluidic immunoassays and nucleic acid based detection platforms / 9.2.3:
Future Research Directions / 9.3:
Microfluidic Applications in Biodefense / Chapter 10:
Biodefense Monitoring / 10.1:
Civilian biodefense / 10.2.1:
Military biodefense / 10.2.2:
Current Biodefense Detection and Identification Methods / 10.3:
Laboratory detection / 10.3.1:
Field detection / 10.3.2:
Microfluidic Challenges for Advanced Biodefense Detection and Identification Methods / 10.4:
Microscale Sample Preparation Methods / 10.5:
Spore disruption / 10.5.1:
Pre-separations / 10.5.2:
Nucleic acid purifications / 10.5.3:
Immunomagnetic Separations and Immunoassays / 10.6:
Immunomagnetic separations / 10.6.1:
Immunoassays / 10.6.2:
Proteomic Approaches / 10.7:
Nucleic Acid Amplification and Detection Methods / 10.8:
PCR and qPCR detection of pathogens for biodefense / 10.8.1:
Miniaturized and Microfluidic PCR / 10.8.2:
Heating and cooling approaches / 10.8.3:
Miniaturized PCR and qPCR for biodefense / 10.8.4:
Other Nucleic acid amplification methods / 10.8.5:
Microarrays / 10.9:
Microarrays and microfluidics / 10.9.1:
Microelectrophoresis and Biodefense / 10.10:
Microelectrophoresis technologies / 10.10.1:
Integrated lab-on-a-chip systems and biodefense / 10.11:
Full microfluidic integration for biodefense / 10.11.1:
Summary and Perspectives / 10.12:
Current and Future Trends in Microfluidics within Biotechnology Research / Chapter 11:
The Past - Exciting Prospects / 11.1:
The Present - Kaleidoscope-like Trends / 11.2:
Droplet microfluidics / 11.2.1:
Integrating Active Components in Microfluidics / 11.2.2:
Third world - paper microfluidics - George Whitesides / 11.2.3:
Microfluidic solutions for enhancing existing biotechnology platforms / 11.2.4:
Microfluidics for cell biology - seeing inside the cell with molecular probes / 11.2.5:
Microfluidics for cell biology - high throughput platforms / 11.2.6:
The Future - Seamless and Ubiquitous MicroTAS / 11.3:
Index
Introduction to Microfluidics / Chapter 1:
Abstract
History of Microfluidics / 1.1:
25.
図書
Goos, Gerhard, 1937- ; Hartmanis, Juris ; Loeckx, Jacques, 1931-
26.
図書
David L. Waltz, general chairman ; sponsored by the Association for Computational Linguistics, the Association for Computing Machinery, SIGART (ACM Special Interest Group in Artificial Intelligence)
出版情報:
New York : ACM, c1978 iii, 253 p. ; 28 cm
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27.
図書
Hauptredakteur dieser Lieferung, Krista v. Baczko
28.
図書
edited with translation and explanatory notes by S.D. Joshi and J.A.F. Roodbergen
29.
図書
Harold P. Klug, Leroy E. Alexander
出版情報:
New York : Wiley, c1974 xxv, 966 p. ; 24 cm
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目次情報:
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Elementary Crystallography / 1:
The Crystalline State / 1-1:
Crystalline and Amorphous Solids / 1-1.1:
Definition of a Crystal / 1-1.2:
Characteristics of the Crystalline and Vitreous States / 1-1.3:
Crystal Geometry / 1-2:
External Form and Habit of Crystals / 1-2.1:
Constancy of Interfacial Angles / 1-2.2:
Symmetry Elements of Crystals / 1-2.3:
Pseudosymmetry, 13 / 1-2.4:
Crystallographic Axes / 1-2.5:
Axial Ratios / 1-2.6:
The Six Crystal Symmetry Systems / 1-2.7:
Miller Indices / 1-2.8:
The Law of Rational Indices / 1-2.9:
Crystal Forms / 1-2.10:
Composite Crystals and Twinning / 1-2.11:
Equation for the Plane (hkl) / 1-2.12:
Zones and Zone Relationships / 1-2.13:
Space Lattices / 1-3:
Historical Introduction / 1-3.1:
Definition / 1-3.2:
The Unit Ceil / 1-3.3:
The 14 Bravais Lattices / 1-3.4:
Some Crystallographic Implications of Space Lattices / 1-3.5:
Distance between Neighboring Lattice Planes in the Series (hkl) / 1-3.6:
The Reciprocal Lattice / 1-3.7:
Point Groups and Space Groups / 1-4:
The Point Group or Crystal Symmetry Class / 1-4.1:
The Space Group / 1-4.2:
General References
Specific References
The Production and Properties of X-rays / 2:
X-Ray Safety and Protection / 2-1:
The Production of X-Rays / 2-2:
The Origin of X-Rays / 2-2.1:
X-Ray Tubes / 2-2.2:
Gas tubes / A:
Hot-cathode tubes / B:
Modern diffraction tube design / C:
Cold-cathode diffraction tubes / D:
High-intensity diffraction tubes / E:
Microfocus diffraction tubes / F:
Power Equipment for the Production of X-rays / 2-2.3:
Commercial X-ray Generators for Diffraction / 2-2.4:
Isotopic X-ray Sources / 2-2.5:
Properties of X-Rays and their Measurement / 2-3:
The X-ray Spectrum of an Element / 2-3.1:
The continuous x-ray spectrum
The characteristic x-ray spectrum
The Precise Determination of X-ray Wavelengths / 2-3.2:
Absorption of X-rays / 2-3.3:
Secondary Fluorescent and Scattered X-rays / 2-3.4:
Refraction of X-rays / 2-3.5:
Monochromatization of X-radiation / 2-3.6:
Single filter technique
Balanced-filter technique
Crystal monochromator techniques
Graphite monochromators
The Photographic Effects of X-rays / 2-3.7:
Fundamental Principles of X-ray Diffraction / 3:
Kinematical and Dynamical Diffraction Theory / 3-1:
The Geometry of Diffraction / 3-2:
Scattering of X-rays by Electrons and Atoms / 3-2.1:
Scattering by a Regularly Spaced Row of Atoms / 3-2.2:
Conditions for Diffraction by a Linear Lattice of Atoms / 3-2.3:
Diffraction by a Simple Cubic Lattice / 3-2.4:
Proof that the "Diffracting Plane" is a Lattice Plane / 3-2.5:
The Bragg Equation / 3-2.6:
Derivation of the Bragg Equation from the "Reflection" Analogy / 3-2.7:
The Geometrical Picture of Diffraction in Reciprocal Space / 3-2.8:
The Intensity of Diffraction / 3-3:
Perfect and Imperfect Crystals / 3-3.1:
Primary and Secondary Extinction / 3-3.2:
Relative and Absolute Intensities / 3-3.3:
Factors Affecting the Diffraction Intensities / 3-3.4:
The polarization factor
The Lorentz and "velocity" factors
The temperature factor
The atomic scattering factor
The structure factor
The multiplicity factor
The absorption factor / G:
Expressions for the Relative Intensity of Diffraction by the Various Techniques / 3-3.5:
Lattice-Centering and Space-Group Extinctions / 3-3.6:
Photographic Powder Techniques / 4:
The Debye-Scherrer Method / 4-1:
Introduction / 4-1.1:
Camera Design / 4-1.2:
General geometry
Details of camera construction
Camera support and alignment
Preparation of the Powder / 4-1.3:
Mounting the Powder / 4-1.4:
Making the Exposure / 4-1.5:
Processing the Film / 4-1.6:
Parafocusing Methods / 4-2:
Monochromatic-Pinhole Techniques / 4-3:
Forward-Reflection Method / 4-3.1:
Back-Reflection Method / 4-3.2:
Microcameras and Microbeam Techniques / 4-4:
High-Temperature Techniques / 4-5:
Low-Temperature Techniques / 4-6:
High-Pressure Techniques / 4-7:
Diffractometric Powder Technique
Geometry of the Powder Diffractometer / 5-1:
General Features / 5-1.1:
Details of the Optical Arrangement / 5-1.2:
The Seemann-Bohlin Diffractometer / 5-1.3:
Alignment and Angular Calibration of the Diffractometer / 5-1.4:
Operations appropriately performed in advance by the manufacturer
Further internal alignment of the goniometer
Alignment of the goniometer with respect to the x-ray tube
Calibration of the O? 2Theta; position
Calibration of angular registration between 0 and 180? 2Theta;
Profiles and positions of diffraction maxima / 5-2:
Convolution Synthesis of Line Profiles / 5-2.1:
X-ray source, g I
Flat specimen surface, g II
Axial divergence, g III
Specimen transparency, g IV
Receiving slit, g v
Comparison of calculated and experimental line profiles
Displacement and Breadth of Diffraction Maxima / 5-2.2:
Line position
Line breadth
The practical determination of the centroid and variance
Accurate Determination of Interplanar (d) Spacings / 5-2.3:
"Routine" Determination of Interplanar (d) Spacings / 5-2.4:
Electrical Characteristics of the Diffractometer / 5-3:
General Arrangement of Components / 5-3.1:
Radiation Detectors (Quantum Counters) / 5-3.2:
Gas-ionization counters
Geiger-Muller counters
Proportional counters
Scintillation counters
Solid-state (energy-dispersive) detectors
Nonlinearity of Detector Response / 5-3.3:
Monochromatizing Techniques / 5-3.4:
Pulse-height discrimination and analysis
Ross balanced filters
Crystal monochromators
Choice of Experimental Conditions and Procedures / 5-4:
Statistical Accuracy of Counter Measurements / 5-4.1:
The Specimen / 5-4.2:
Preparation of powders
Rotation of the specimen
Preferred orientation and the specimen mount
High-temperature techniques
Low-temperature techniques
Other special specimen techniques
Transmission Techniques / 5-4.3:
Continuous-Scan Techniques / 5-4.4:
Step-Scan Techniques and Automation / 5-4.5:
The Interpretation of Powder Diffraction Data / 6:
The Viewing and Precision Measurement of Powder Photographs / 6-1:
Determination of Interplanar (d) Spacings / 6-2:
Debye-Scherrer Patterns / 6-2.1:
Monochromatic-Pinhole (Flat-Film) Patterns / 6-2.2:
Indexing Cubic Powder Patterns / 6-3:
Reciprocal-Lattice Picture of Diffraction by a Cubic Powder / 6-3.1:
Indexing a Cubic Pattern by sin 2 Theta Ratios / 6-3.2:
Determination of the Unit-Cell Dimension a / 6-3.3:
Indexing a Cubic Pattern When a Is Known / 6-3.4:
Determination of Lattice Type / 6-4:
Indexing Noncubic Powder Patterns / 6-5:
Indexing Noncubic Patterns When the Unit-Cell Dimensions are Known / 6-5.1:
Graphical Methods of Indexing / 6-5.2:
Analytical Methods of Indexing: Tetragonal, Hexagonal, and Orthorhombic Patterns / 6-5.3:
Analytical Methods of Indexing: Monoclinic and Triclinic Patterns / 6-5.4:
Automated Computing Procedures for Indexing Powder Patterns / 6-6:
Programs for Patterns of Orthorhombic and Higher Symmetry / 6-6.1:
Programs for Patterns of Low Symmetry / 6-6.2:
The Measurement of Intensities from Photographic Blackening / 6-7:
Preparation of a Graded Intensity Scale / 6-7.1:
Visual Estimation of Intensities / 6-7.3:
Photometer Techniques / 6-7.4:
The Measurement of Intensities with the X-Ray Diffractometer / 6-8:
Putting Intensities on an Absolute Scale / 6-9:
Special Scattering and Diffraction Effects / 6-10:
Background Effects / 6-10.1:
Background due to lattice imperfections
Background due to general radiation
Absorption discontinuities
Air scatter
Secondary fluorescence radiation
Reflections of Unusual Char / 6-10.2:
Elementary Crystallography / 1:
The Crystalline State / 1-1:
Crystalline and Amorphous Solids / 1-1.1:
30.
図書
Hans Neunhoeffer, Paul F. Wiley
目次情報:
続きを見る
1,2,3-Triazines / H. Neunhoeffer
Introduction
Uncondensed Aromatic Systems
Uncondensed Reduced Systems
1,2,3-Triazine Rings Condensed with Carbocycles
1,2,3-Triazine Rings Condensed with Heterocycles through Carbon Atoms
1,2,3-Triazine Rings Condensed with Heterocycles through a Carbon Atom and a Nitrogen Atom
1,2,3-Triazine Rings Condensed with Two Heterocycles
1,2,3-Triazine Rings Condensed with Heterocycles through Two Nitrogen Atoms
Uses and Biochemical Aspects of
1,2,3-Triazine Derivatives
1,2,4-Triazines
Uncondensed Reduced
Condensed
1,2,4-Triazine Systems
1,2,4-Triazine Rings Condensed with Heterocycles through Carbon Atoms
1,2,4-Triazine Rings Condensed with Heterocycles through a Carbon and a Nitrogen Atom
1,2,4-Triazine Rings Condensed with Heterocycles through Two Nitrogen Atoms
1,2,4-Triazine Rings Condensed with Two Heterocycles
1,2,4-Triazine Rings as Part of a Bicyclic System
Polymers Containing the 1,2,4-Triazine Nucleus
References
1,2,4,5-Tetrazines / P. F. Wiley
Verdazyls
Condensed Systems
Polymers
Uses
Other Six-Membered Nitrogen Heterocycles / P. F.Wiley
1,2,3,4-Tetrazines
1,2,3,5-Tetrazines
Pentazines
1,2,3-Triazines / H. Neunhoeffer
Introduction
Uncondensed Aromatic Systems
31.
図書
prepared and issued by Gmelin-Institut für Anorganische Chemie der Max-Planck-Gesellschaft zur Förderung der Wissenschaften ; director, Ekkehard Fluck
出版情報:
Berlin ; Tokyo : Springer-Verlag, 1975- v. ; 26 cm
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32.
図書
小平邦彦監修 ; 岩堀長慶 [ほか] 編
出版情報:
東京 : 岩波書店, 1976.5- 冊 ; 22cm
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33.
図書
P.E. Conner
目次情報:
続きを見る
Fundamentals of Micromachined Vibratory Gyroscopes / Part I:
Introduction / 1:
The Coriolis Effect / 1.1:
Gyroscopes / 1.2:
The MEMS Technology / 1.3:
Micromachined Vibratory Rate Gyroscopes / 1.4:
Applications of MEMS Gyroscopes / 1.5:
Gyroscope Performance Specifications / 1.6:
A Survey of Prior Work on MEMS Gyroscopes / 1.7:
The Robustness Challenge / 1.8:
Inherently Robust Systems / 1.9:
Overview / 1.10:
Fundamentals of Micromachined Gyroscopes / 2:
Dynamics of Vibratory Rate Gyroscopes / 2.1:
Linear Gyroscope Dynamics / 2.1.1:
Torsional Gyroscope Dynamics / 2.1.2:
Resonance Characteristics / 2.2:
Drive-Mode Operation / 2.3:
The Coriolis Response / 2.4:
Mode-Matching and [delta]f / 2.4.1:
Phase Relations and Proof-Mass Trajectory / 2.4.2:
Summary / 2.5:
Fabrication Technologies / 3:
Microfabrication Techniques / 3.1:
Photolithography / 3.1.1:
Deposition / 3.1.2:
Etching / 3.1.3:
Wafer Bonding / 3.1.4:
Bulk Micromachining Processes / 3.2:
SOI-Based Bulk Micromachining / 3.2.1:
Silicon-on-Glass Bulk Micromachining / 3.2.2:
Surface-Micromachining Processes / 3.3:
Combined Surface-Bulk Micromachining / 3.4:
CMOS Integration / 3.5:
Hybrid Integration / 3.5.1:
Monolithic Integration / 3.5.2:
Packaging / 3.6:
Wafer-Level Packaging / 3.6.1:
Vacuum Packaging / 3.6.2:
Mechanical Design of MEMS Gyroscopes / 3.7:
Mechanical Structure Designs / 4.1:
Linear Vibratory Systems / 4.2:
Linear Suspension Systems / 4.2.1:
Linear Flexure Elements / 4.2.2:
Torsional Vibratory Systems / 4.3:
Torsional Suspension Systems / 4.3.1:
Torsional Flexure Elements / 4.3.2:
Anisoelasticity and Quadrature Error / 4.4:
Quadrature Compensation / 4.4.1:
Damping / 4.5:
Viscous Damping / 4.5.1:
Viscous Anisodamping / 4.5.2:
Intrinsic Structural Damping / 4.5.3:
Material Properties of Silicon / 4.6:
Design for Robustness / 4.7:
Yield / 4.7.1:
Vibration Immunity / 4.7.2:
Shock Resistance / 4.7.3:
Temperature Effects / 4.7.4:
Electrical Design of MEMS Gyroscopes / 4.8:
Basics of Capacitive Electrodes / 5.1:
Electrostatic Actuation / 5.3:
Variable-Gap Actuators / 5.3.1:
Variable-Area Actuators / 5.3.2:
Balanced Actuation / 5.3.3:
Capacitive Detection / 5.4:
Variable-Gap Capacitors / 5.4.1:
Variable-Area Capacitors / 5.4.2:
Differential Sensing / 5.4.3:
Capacitance Enhancement / 5.5:
Gap Reduction by Fabrication / 5.5.1:
Post-Fabrication Capacitance Enhancement / 5.5.2:
MEMS Gyroscope Testing and Characterization / 5.6:
Frequency Response Extraction / 5.6.1:
Capacitive Sense-Mode Detection Circuits / 5.6.2:
Rate-Table Characterization / 5.6.3:
Structural Approaches to Improve Robustness / 5.7:
Linear Multi-DOF Architecture / 6:
Fundamentals of 2-DOF Oscillators / 6.1:
The 2-DOF Sense-Mode Architecture / 6.3:
Gyroscope Dynamics / 6.3.1:
Coriolis Response / 6.3.2:
Illustrative Example / 6.3.3:
Conclusions on the 2-DOF Sense-Mode Architecture / 6.3.4:
The 2-DOF Drive-Mode Architecture / 6.4:
Dynamical Amplification in the Drive-Mode / 6.4.1:
Conclusions on the 2-DOF Drive-Mode Architecture / 6.4.3:
The 4-DOF System Architecture / 6.5:
Dynamics of the 4-DOF Gyroscope / 6.5.1:
Parameter Optimization / 6.5.3:
Conclusions on the 4-DOF System Architecture / 6.5.4:
Demonstration of 2-DOF Oscillator Robustness / 6.6:
Torsional Multi-DOF Architecture / 6.7:
Torsional 3-DOF Gyroscope Structure and Theory of Operation / 7.1:
Cross-Axis Sensitivity / 7.2.1:
Illustration of a MEMS Implementation / 7.3:
Suspension Design / 7.3.1:
Finite Element Analysis / 7.3.2:
Optimization of System Parameters / 7.3.3:
Sensitivity and Robustness Analyses / 7.3.5:
Experimental Characterization / 7.4:
Distributed-Mass Architecture / 7.5:
The Approach / 8.1:
Wide-Bandwidth Operation for Improving Robustness / 8.2.1:
Theoretical Analysis of the Trade-offs / 8.3:
Prototype Design / 8.4:
Experimental Characterization Results / 8.4.2:
Conclusions and Future Trends / 8.5:
Comparative Analysis of the Presented Concepts / 9.1:
2-DOF Oscillator in the Sense-Mode / 9.2.1:
2-DOF Oscillator in the Drive-Mode / 9.2.2:
Multiple Drive-Mode Oscillators / 9.2.3:
Demonstration of Improved Robustness / 9.3:
Temperature Dependence of Drive and Sense-Modes / 9.3.1:
Rate-Table Characterization Results / 9.3.2:
Comparison of Response with a Conventional Gyroscope / 9.3.3:
Scale Factor Trade-off Analysis / 9.4:
Future Trends / 9.5:
Anti-Phase 2-DOF Sense Mode Gyroscope / 9.5.1:
2-DOF Sense Mode Gyroscope with Scalable Peak Spacing / 9.5.2:
Conclusion / 9.6:
References
Index
Fundamentals of Micromachined Vibratory Gyroscopes / Part I:
Introduction / 1:
The Coriolis Effect / 1.1:
34.
図書
Wolfgang Pies, Alarich Weiss ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
Co-Sponsors
Committees and Referees
Foreword
Keynote Papers
Advances in Collaborative Networked Organizations / L.M. Camarinha-Matos1:
New Challenges in Collaborative Virtual Factory Design / S. Mottura ; G. Viganò ; L. Greci ; M. Sacco ; E. Carpanzano2:
Feeling the Pain: Disruptive Innovation in Healthcare Markets / D. J. Williams ; O. Wells ; P. Hourd ; A. Chandra3:
Collaborative Networks / Part 1:
Towards a Methodology to Measure the Alignment of Value Systems in Collaborative Networks / A. Abreu ; P. Macedo ; L. M. Camarinha-Matos4:
Readiness for Collaboration Assessment Approach in Collaborative Networked Organisations / D. Romero ; N. Galeano ; A. Molina5:
Collaborative Networked Enterprises: A Pilot Case in the Footwear Value Chain / E.Carpanzano ; A. Ballarino6:
Modeling Performance Indicators' Selection Process for VO Partners' Suggestions / F. Baldo ; R. Rabelo ; R. V. Vallejos7:
A Collaboration Readiness Assessment Approach / J. Rosas8:
Process Management in Collaborative Networked Organisations: A Perspective Under the Scope of Organisational Memory / L. Loss ; Leonardo Leocádio de Souza ; R. J. Rabelo9:
Automating Trust Assessment for Configuration of Temporary Partnerships / S. S. Msanjila ; H. Afsarmanesh10:
A Model for Dynamic Generation of Collaborative Decision Protocols for Managing the Evolution of Virtual Enterprises / M. D. Silva11:
Partner Selection in Virtual Enterprises - Anexploratory Approach / J. A. Crispim ; J. Pinho de Sousa12:
Interoperability and Collaborative Support / Part 2:
Ebxml - Overview, Initiatives and Applications / A. Pereira ; F. Cunha ; P. Malheiro ; A. Azevedo13:
An Analytical Approach for Comparing Collaborative Business Frameworks / C. Melania Chituc ; C. Toscano14:
Support of Knowledge Creation Processes in a Computer-Based Collaborative System / J. Paralič ; F. Babič15:
Efficient Event Handling in Supply Networks Using Q-Learning and K-Means Clustering / A. Doering ; W. Dangelmaier ; C. Laroque16:
Ontology Development in Home Automation Used in Automatic VE Formation / O. R. Fernandes ; A. P. Rocha ; E. Oliveira17:
Towards an Ontology Mapping Process for Business Process Composition / C. T. Martins ; H. Sofia Pinto18:
Using Concept Maps for Ontology Development: A Case in the Work Organization Domain / A. Soares ; C. Sousa19:
Digital Factory / Part 3:
Demand Forecast Method for Build-to-Order Products Using Estimate Information as a Leading Indicator / A. Shimoda ; H. Kosugi ; T. Karino ; N. Komoda20:
An Ontology for a Model of Manufacturing Scheduling Problems to be Solved on the Web / M. L. Varela ; S. Carmo-Silva21:
Evolvable Assembly Systems: From Evaluation to Application / M. Onori ; D. Semere ; J. Barata22:
Configuration of an Autonomous Decentralized Sdigital Factory Using Product and Machine Agents / M. Matsuda ; N. Sakao23:
Comparing Workload Based Order Releasemechanisms / N. O. Fernandes24:
Neural Network Modelling and Simulation of the Scheduling / R. L. Avila Rondon ; A. S. Carvalho ; G. I. Hernández25:
Manufacturing Systems of the Future: A Multi-Disciplinary Approach / R. Frei26:
Reliability Evaluation of Failure Delayed Engineering Systems / J. A. Faria27:
Intelligent Machines and Sensor Networks / Part 4:
Mas and Soa: Complementary Automation Paradigms / L. Ribeiro ; P. Mendes28:
Embodied Intelligence to Turn Evolvable Assembly System Reality / 29:
Next Generation of Flexible Assembly Systems / R. Bernhardt ; D. Surdilovic ; V. Katschinski ; G. Schreck ; K. Schröer30:
Intelligent Optical Sensors Using Artificial Neural Network Approach / I. Dias ; R. Oliveira ; O. Frazão31:
Intelligent Products: Intelligent Beings or Agents? / P. Valckenaers ; H. Van Brussel32:
A Bio-Inspired Solution for Manufacturing Control Systems / P. Leitão33:
Innovation and Entrepreneurship / Part 5:
An Innovative Pattern to Design New Business Models in the Machine Tool Industry / G. Copani ; S. Marvulli ; L. M. Tosatti34:
Entrepreneurial Potential in Engineering and Business Courses - Why Worry Now? / A. A. C. Teixeira35:
Co-Innovation Networks in Industry / J.Vilhena36:
Creative Entrepreneurial Abrasion in Higher Education / J. J. P. Ferreira ; M. Sousa ; J. Oliveira37:
Innovation and Entrepreneurship: What Professors from Leading Universities Say? / M. Oliveira ; H. Barandas38:
Author Index
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
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
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
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
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 / 2.6.3:
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
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
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
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
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
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 / 2.9:
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. Schneider
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
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
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
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
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
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
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
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
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
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 / 2.9.1:
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 / 2.1.1.9:
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 / 2.1.2:
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
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
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
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
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
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
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 / 1.5.3.2:
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
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:
Condensed Matter / Group III:
Climate definition (See Vol.4C1)
Magnetic and Other Properties of Oxides and Related Compounds / Volume 4:
See Vol. 19A / 1.1-l1.4:
Climate modeling / A.R. ForresterPart B:
Nitroxide radicals / W. Gräper12.1:
See Vol. 19B
Non-iron garnets / 1.5.4:
3d elements and C, Si, Ge, Sn or Pb (Y. NAKAMURA) / 5.0:
Formal classification criteria
Nitroxides formed by trapping with nitrosoalkanes (See Vol.17D1) / 1.5.4.1:
Physical classification criteria
Nitroxides formed by trapping with nitrosoarenes, nitrosoheterocycles and nitroarenes (See Vol.17D1)
Magnetic susceptibility data / 1.5.4.2:
Operational classification criteria / A:
Nitroxides formed by trapping with acyclic nitrones
Paramagnetic susceptibility above the ordering temperature / 1.5.4.3:
References for 12 / B:
alpha-Phenyl N-t-butylnitrone
Susceptibility data at low temperatures in the vicinity of an ordering temperature / 1.5.4.4:
alpha-Methylene-N-t-butyl nitrone / C:
Summary of susceptibility parameters and transition temperatures / 1.5.4.5:
The present global surface climate
N,N'-Di-t-butyl ethylidene dinitrone / 13.1:
Tables of nuclear quadrupole interaction parameters (See Vol.20A) / 1.5.4.5.1:
The earthÆs surface as part of the global climate system
Alloys and compounds with C and Si
alpha-4-(Pyridinyl-1-oxide)N-t-butyl nitrone / 13.2:
Crystallographic and structural data / 1.5.4.5.2:
Selected concepts in quantitative climate description
Alloys and compounds with Ge
alpha-2- and 3-(Pyridinyl-1-oxide)N-t-butyl nitrones / 13.3:
Location and environment of ions in the unit cell of the garnet lattice / 1.5.4.5.3:
Quantitative respresentation of the global surface climate
Alloys and compounds with Sn
Values of <(a0 /r)3 > for the valence states of some neutral atoms / 13.4:
alpha-4-Pyridinyl and alpha-2,3 and 4-(N-alkylpyridinium) N-t-butyl nitrones
Oxygen coordinates, interionic spacings, and angles of compounds with garnet structure / 1.5.4.6:
Climate classification
alpha-(2-Sulfonyloxyphenyl)N-t-butyl nitrone sodium salt / 13.5:
Lattice parameters and density of garnet systems / 1.5.4.7:
List of abbreviations used in chapter 13
MM'X ternary compounds / D:
alpha-(2,4,6-Trimethoxyphenyl)N-t-butyl nitrone / 13.6:
Magnetic structure of DyAlG and ErGaG / 1.5.4.8:
References for 13
References for 1.5.4
alpha-(2,6-Di-t-butyl-4-hydroxyphenyl)N-t-butyl nitrone
Specific Surfaces Climates (See Vol.4C1) / 1.5.5:
Results of magnetic resonance experiments / 6.4.10:
Heusler alloys (P.J. WEBSTER, K.R.A. ZIEBECK)
Climate variations (See Vol.4C1)
alpha-(p-Dodecyloxyphenyl)N-t-butyl nitrone
Paramagnetic resonance of rare earth impurities in diamagnetic garnets / 1.5.5.1:
The Planetary Boundary Layer (PBL) (See Vol.4C1)
Crystallographic structure
Other alpha-aryl N-t-butyl nitrones
Paramagnetic resonance of impurities with d electrons in diamagnetic garnets / 1.5.5.1.1:
Chemical order
alpha-Phenyl N-(1,3-dioxanyl)nitrone
Paramagnetic resonance of impurities in paramagnetic garnets / 1.5.5.1.1.1:
General model
alpha(4-(N-Methylpyridinium))N-t-butyl nitrone
Deuterium - Chlorine (See Vol.20A) / 1.5.5.1.1.2:
Nuclear magnetic resonance experiments / 6.4.14:
Chlorine (continued) - Rubidium (See Vol.20B)
A statistical model / 5.5:
Other alpha-aryl nitrones / 50:
Results from optical spectra / 1.5.5.1.1.3:
Zirconium, Niobium, Molybdenum, Technetium
Preferential disorder
Other N-t-butyl nitrones / 51:
Crystal field analysis and parameters / 1.5.5.1.2:
Indium
Magnetic order
N-Cyanoisopropyl nitrones / 52:
Summary of references for some results from optical measurements / 1.5.5.1.2.1:
Antimony
Ferromagnetic order / 5.6:
alpha-Methylene and alpha-ethylene N-duryl nitrones / 53:
Spin-lattice relaxation of paramagnetic ions in garnets / 1.5.5.1.2.2:
- 55 Iodine
Antiferromagnetic order
Nitrones derived from sugars / 56:
Cesium / 1.5.5.2:
Bulk magnetic properties
Nitroxides formed by trapping with cyclic nitrones / 57:
Barium / 1.5.5.2.1:
5,5-Dimethyl-1-pyrroline N-oxide / 58:
The dependence of the spin-lattice relaxation time on magnetic field
Lanthanides / 1.5.5.2.2:
Ferromagnets X2 MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2 MnZ with X = 3d element
5-Heptyl-3,3,5-trimethyl-1-pyrroline N-oxide / 60:
Specific heat of rare earth gallium garnets
Rhenium / 1.5.5.2.2.2:
X2 MnZ with X = 4d element
5-Hexadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 61:
Specific heat of two rare earth aluminium garnets
Gold / 1.5.5.2.3:
Antiferromagnets X2 MnZ
5-Octadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 62:
Faraday rotation in paramagnetic non-iron garnets
Mercury / 1.5.5.2.3.1:
4,5,5-Trimethyl-1-pyrroline N-oxide / 63:
Magnetomechanical properties
Bismuth / 1.5.5.2.3.2:
3,5,5-Trimethyl-1-pyrroline N-oxide
Magnetostriction of rare earth gallates and germanates with a garnet structure
Diagrams of NQR frequencies and related properties / 1.5.5.2.3.3:
X2 MnZ with X = 5d element
2,5,5-Trimethyl-1-pyrroline N-oxide
Macroscopic magnetoelastic tensors for paramagnetic rare earth ions in diamagnetic garnet hosts
Ferromagnets X2 YZ for Y other than Mn / 1.5.5.2.4:
Other 5,5-dialkyl-1-pyrroline N-oxides
Magnetoacoustic properties
Co2 YZ with Y = 4A, 5A element / 1.5.5.2.4.1:
2,2,5,5-Tetramethyl-3-imidazoline N-oxides
Neutron diffraction results near and below the magnetic ordering point
Co2 YZ with Y = 6A, 7A element / 1.5.5.2.4.2:
4-Methoxycarbonyl-3,3,5,5-tetra-alkyl-1-pyrroline N-oxide
Structure formulas / 1.5.5.2.4.3:
Fe2 YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2 FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Mn2 VZ / 1.5.5.2.4.5:
Cyclic dialkyl nitroxides
Spinels
Arrangement / 1.5.5.2.5:
Paramagnets X2 YZ with X, Y = 3d element
Aziridinyl 1-oxyls
Quaternary alloys / B.A. Calhoun1.5.5.2.6:
Azetidinyl 1-oxyls
(XX*)2 MnSn with X, X* 3d elements / 1.5.5.2.6.1:
Pyrrolidinyl-1-oxyls
Ni2 (YY*)Sn with Y, Y* = 3d elements / 1.5.5.2.6.2:
Pyrrolinyl-1-oxyls
Structure / 1.5.5.2.6.3:
(XX*)2 TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2 MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2 MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2 Mn (ZZ*) / 6.1.0.1:
Isoindolinyl-oxyls
A-B exchange interaction; magnetization / 1.5.5.2.7:
Clb Intermetallic compounds XYZ / 6.1.0.2:
Oxaindolinyl-oxyls
A-A, B-B exchange interaction; magnetic order / 1.5.5.2.7.1:
Ferromagnets XMnZ with X = 3d element / 6.1.0.3:
Piperidinyl-1-oxyls
Hyperfine interactions (Môssbauer and NMR methods) / 1.5.5.2.7.2:
Ferromagnets XMnZ with X = 4d, 5d element / 6.1.0.4:
Tetrahydropyridinyl-1-oxyls
Anisotropy / 1.5.5.2.7.3:
Ferromagnets - paramagnets XYSb for Y other than Mn / 6.1.0.5:
Diaza- and triaza-cyclohexyl- and -cyclohexenyl-1-oxyls
Ferrimagnetic resonance / 1.5.5.2.7.4:
Antiferromagnets XMnZ with X = 3d, 4d, 5d element / 6.1.0.6:
Oxazinyl-1-oxyls
Accuracy / 1.5.5.2.7.5:
Quaternary alloys (XX*)MnSb with X, X* = 3d, 4d, 5d elements / 6.1.0.7:
1,4 Azaphosphacyclohexyl-1-oxyls
References for 6.0 and 6.1.0 / 1.5.5.2.7.6:
X2-x MnSb with X = 3d, 4d element / 6.1.1:
Azepinyl-1-oxyls and macrocyclic N-oxyls
Neutron diffraction and magnetic order / 1.5.5.3:
Bicyclic nitroxides
Alkyl, aryl and vinyl nitroxides / R.A. Lefever1.5.5.3.1:
Neutron diffraction theory / 1.5.5.3.2:
Aryl, diaryl and divinylnitroxides
Tables and figures / 1.5.5.3.3:
Magnetic and chemical ordering data / 6.1.1.2:
Alkyl imidoyl and nitronyl nitroxides
References for 6.1.1.1 / 1.5.5.3.3.1:
Co2 MnZ / 6.1.2:
Acyl nitroxides
Ni2 MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2 MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2 MnZ / 1.5.5.3.3.4:
Thio and sulfonyl nitroxides
Clb compounds XYZ / 1.5.5.3.3.5:
Phospho nitroxides
Polarized neutron measurements on single crystals / 1.5.5.3.4:
Other nitroxides
References for 6.4 - 6.16 / 1.5.5.3.4.1:
X2 MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3 Z / 6.1.2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H) / 1.5.5.3.4.3:
Ni ferrite with Co substitutions
Fe3-x Mnx Si / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2 YZ with Y = 3d element / 6.1.2.5:
Ge substituted Ni ferrite / 1.5.5.4:
Dynamics / 6.1.2.6:
Ni ferrite chromite / 1.5.5.4.1:
Lattice dynamics / 6.1.2.7:
Ni ferrite vanadate / 1.5.5.4.2:
Phase transitions / 6.1.2.8:
Ni ferrite aluminate / 1.5.5.4.3:
Spin dynamics / 6.1.2.9:
Ni gallate ferrite / 1.5.5.5:
Electrical properties / 6.1.2.10:
References for 6.1.2.0 - 6.1.2.9 / 1.5.5.5.1:
Electrical resistivity / 6.1.3:
Magnetoresistance / 1.5.5.5.2:
Hall effect / R. Vautier ; M. Paulus1.5.5.5.3:
Thermoelectric power / 1.5.5.5.4:
Thermal properties / 1.5.5.6:
Phase equilibria and structure / 1.5.5.6.1:
Specific heat / 6.1.3.1.1:
Phase equilibria / 1.5.5.6.1.1:
Cu2 MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-x Alx / 6.1.3.1.4:
Ionic distribution / 1.5.5.6.2:
Superconductivity / 6.1.3.1.5:
Spin arrangement / 1.5.5.7:
Hyperfine fields / 6.1.3.2:
Mössbauer spectra of Sn-doped alloys (119 Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2 Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2 MnSb, XMnSb with X = 8A element / 6.1.3.2.4:
Diffusion and oxidation coefficients / 1.5.5.7.3:
Mössbauer spectra of Sb-based alloys (121 Sb), X2 MnSb, XMnSb with X = 1B, 8A element / 6.1.3.2.5:
Ferrite thermodynamics / 1.5.5.7.4:
Mössbauer <$$$> element / 6.1.3.2.6:
Solid crystal growth / 1.5.5.7.5:
D03 , compounds Fe3 Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03 -L21 compounds Fe3-x Yx Si with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5 V0.5-x Alx / 6.1.3.4:
References for 1.5.5 / 1.5.5.8:
Metallic perovskites (PH. L'HÉRITIER, D. FRUCHART, R. MADAR, R. FRUCHART) / 1.5.6:
Magnetoresistance and thermomagnetic effect / 1.5.6.1:
Crystallographic properties of Mc XMf 3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of Mc XMf 3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
Mc XTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
Mc XCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
Mc XM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
Mc XFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
Mc XCo3 / 6.1.3.6:
Mc XNi3 / 1.5.6.3.6:
Magnetocrystalline anisotropy in Mn ferrite / 1.5.6.4:
References for 1.5.6 / 6.1.3.6.2:
Magnetocrystalline anisotropy in Mn ferrite with substitutions
Alloys and compounds of 4d or 5d elements with main group elements (S. MISAWA, K. KANEMATSU) / 6.1.3.6.3:
Linear magnetostriction / 1.6.1:
Magnetic annealing / 6.1.3.6.4:
Alloys and compounds of Zr / 6.1.3.7:
Domains and domain walls / 1.6.2.1:
ZrHx / 6.1.3.7.1:
Domain wall motion experiments / 1.6.2.2:
ZrCuAl / 6.1.3.7.2:
Domain structure / 1.6.2.3:
ZrZn2 / 6.1.3.8:
Response of magnetization to a field / 1.6.2.4:
Other compounds of Zr / 6.1.3.8.1:
High temperature susceptibility / 1.6.3:
Alloys and compounds of Nb / 6.1.3.8.2:
High field susceptibility in the ferrimagnetic state / 1.6.3.1:
Nb4 hydride / 6.1.3.8.3:
Permeability variation with composition, impurities, irradiation, and grain size / 1.6.3.2:
A15 and sigma-phase alloys of Nb / 6.1.3.8.4:
Permeability vs. temperature / 1.6.3.3:
Nb carbides / 6.1.3.8.5:
Permeability vs. pressure / 1.6.3.4:
Nb nitride / 6.1.3.8.6:
Permeability vs. frequency / 1.6.3.5:
Nb chalcogenides / 6.1.3.8.7:
After-effect, disaccommodation, and viscosity / 1.6.4:
Alloys and compounds of Mo / 6.1.3.9:
Microwave properties / 1.6.4.1:
Mo borides / 6.1.3.9.1:
Resonance line width / 1.6.4.2:
MoAlGe / 6.1.3.9.2:
Spectroscopic splitting factor / 1.6.4.3:
Mo carbides / 6.1.3.10:
Optical properties (absorption) / 1.6.4.4:
Mo chalcogenides / 6.1.3.11:
References for 6.1.3.0 - 6.1.3.10 / 1.6.5:
Compounds of Ru / 6.1.4:
Alloys of Rh / 1.6.6:
Alloys and compounds of Pd / C.J. Kriessman ; A.P. Greifer1.6.7:
Pd hydrides / 1.6.7.1:
Pd-Li and Pd-Na compounds / 1.6.7.2:
fcc alloys of Pd / 1.6.7.3:
MgMn ferrites and MgMn ferrites with substitutions / 1.6.7.4:
Other compounds of Pd / 6.1.4.2.0:
Alloys and compounds of Hf / 1.6.8:
Crystallographic properties, physical properties, phase data, magnetic moments / 1.6.8.1:
Hf hydrides / 6.1.4.2.2:
HfZn2 / 1.6.8.2:
Losses / 1.6.8.3:
Hf carbides / 6.1.4.2.4:
Square-loop properties / 1.6.8.4:
Hf chalcogenides / 6.1.4.2.5:
Alloys and compounds of Ta / 1.6.9:
Other ferrite systems containing Mg / 1.6.9.1:
Ta hydrides / 6.1.4.3.0:
Ta carbides / 1.6.9.2:
Ta chalcogenides / 1.6.9.3:
Alloys and compounds of W / 1.6.10:
W borides / 1.6.10.1:
WP / 6.1.4.3.3:
W chalcogenides / 1.6.10.3:
Alloys and compounds of Re / 1.6.11:
Compounds of Os / 1.6.12:
Alloys and compounds of Pt / 1.6.13:
Pt-Li and Pt-Na compounds / 6.1.4.3.6:
fcc alloys of Pt / 1.6.13.2:
Other systems containing trivalent and higher valency cations / 6.1.4.3.7:
Other compounds of Pt
References for 1.6 / 6.1.4.3.8:
References for 6.1.4.1 - 6.1.4.3 / 6.1.4.4:
Zn, Zn-Fe, Zn-Ti, Zn-Li, Zn-Ti-Li, Zn-Cd, Zn-Mg, Zn-Co, and Zn-Cu ferrites / V.J. Folen6.1.5:
Zn-Ni, Zn-Ni-Ge, and Zn-Ni-Sb ferrites / 6.1.5.2:
References for 6.1.5.1 and 6.1.5.2 / 6.1.5.3:
Li ferrite / 6.1.6:
Li-Cr ferrites / 6.1.6.2:
Li-Zn, Li-Zn-Co, Li-Ti, Li-Zn-Ti, and Li-Zn-Ti-Al-Mn ferrites / 6.1.6.3:
Li-A1, Li-Ga, Li-Cd ferrites and Li-Fe ferrites / 6.1.6.4:
Li-Mn, Li-V, and Li-Ge ferrites / 6.1.6.5:
References for 6.1.6.1 - 6.1.6.5 / 6.1.6.6:
Cu-Zn and Cu-Cd ferrites / 6.1.7:
Cu-Cr ferrites / 6.1.7.3:
Cu-Mg ferrites / 6.1.7.4:
Other ferrites, oxide compounds, and oxide mixtures containing Cu / 6.1.7.5:
References for 6.1.7.1 - 6.1.7.5 / 6.1.7.6:
Co ferrite / 6.1.8:
Co ferrite and Co-Fe mixed oxides / 6.1.8.2:
Co-Zn ferrites / 6.1.8.3:
Co-Cd, Co-Mg, Co-Ni, and Co-Cr ferrites / 6.1.8.4:
References for 6.1.8.1 - 6.1.8.4 / 6.1.8.5:
Cr spinels
Cr oxide-spinels
Binary Cr oxide-spinels / 6.2.1.1:
Ternary and quarternary Cr oxide-spinels / 6.2.1.2:
References to 6.2.1.1 and 6.2.1.2 / 6.2.1.3:
Cr sulfide, selenide and telluride spinels / G.H. Stauss
Comparison of the crystallographic, electrical, and magnetic properties of Cr spinels containing S, Se and Te / 6.2.2.1:
Cd-Cr selenide spinel / 6.2.2.2:
Cd-Cr selenide spinel with substitutions / 6.2.2.4:
Cd-Cr sulfide spinel and substituted compounds / 6.2.2.5:
Hg-Cr selenide, Hg-Cr sulfide spinels and their substituted compounds / 6.2.2.6:
Cu-Cr S, Se and Te spinels / 6.2.2.7:
Cu-Cr S, Se and Te spinels with substitutions / 6.2.2.8:
Fe-Mn-, Co- and Zn-Cr S and Se spinels and their substituted compounds / 6.2.2.9:
References for 6.2.2.1 - 6.2.2.9 / 6.2.2.10:
Further spinels
V spinels and substituted V spinels
Ge spinels and substituted Ge spinels / 6.3.1.1:
Rh spinels and substituted Rh spinels
References to 6.3.1 - 6.3.3
Al spinels and substituted Al spinels
Ga spinels and substituted Ga spinels
In spinels and substituted In spinels
References to 6.3.5 - 6.3.7
Co spinels and substituted Co spinels / 6.3.9:
Ni spinels and substituted Ni spinels / 6.3.10:
Te spinels and substituted Te spinels / 6.3.11:
Mn spinels and substituted Mn spinels / 6.3.12:
Ti spinels and substituted Ti spinels / 6.3.13:
References to 6.3.9 - 6.3.13 / 6.3.14:
Mo spinels and substituted Mo spinels / 6.3.15:
W spinels and substituted W spinels / 6.3.16:
Nb spinels and substituted Nb spinels / 6.3.17:
Zr spinels / 6.3.18:
Sb spinels and substituted Sb spinels / 6.3.19:
Sn spinels and substituted Sn spinels / 6.3.20:
Si spinels and substituted Si spinels / 6.3.21:
References to 6.3.15 - 6.3.21 / 6.3.22:
Hexagonal ferrites
Quantities and units / 7.0:
Chemical compositions and phase diagrams of hexagonal ferrites
Crystal structures
Paramagnetic properties of ferrites with hexagonal crystal structures / 7.5:
M (magnetoplumbite)-type ferrites / 7.6:
Survey of the chemical substitutions in the M structure and room temperature lattice constants / 7.6.1:
Electric and dielectric properties / 7.6.2:
Môssbauer spectra, saturation magnetization, and Curie temperature / 7.6.3:
Magneto-crystalline anisotropy / 7.6.4:
Hysteresis properties / 7.6.6:
High-frequency magnetic properties / 7.6.7:
Magnetic spectrum / 7.6.7.1:
Line width of the ferromagnetic resonance / 7.6.7.2:
W-type ferrites / 7.7:
Survey of chemical substitutions in the W structure / 7.7.1:
Saturation magnetization and Curie temperature / 7.7.2:
Y-type ferrites / 7.7.4:
Lattice parameters / 7.8.1:
Mössbauer spectra, saturation magnetization, spectroscopic splitting factor, and Curie temperature / 7.8.2:
Magneto-crystalline anisotropy derived from static measurements / 7.8.4:
Magneto-crystalline anisotropy field derived from the ferromagnetic resonance frequency / 7.8.4.2:
Magnetic spectrum of the initial permeability / 7.8.5:
Non-linear effects in the ferromagnetic resonance / 7.8.6.2:
Z-type ferrites / 7.9:
Resistivity / 7.9.1:
U-type ferrites / 7.9.3:
Calcium ferrites / 7.11:
Index of substances for III/4a and III/4b / 7.12:
Co-Sponsors
Committees and Referees
Foreword
35.
図書
O.I. Franksen, P. Falster, F.J. Evans
目次情報:
続きを見る
Introduction / 1:
Marginal Models for Categorical Data / 1.1:
Historical and Comparable Approaches / 1.2:
Coefficients for the Comparsion of Marginal Distributions / 1.3:
Measuring Differences in Location / 1.3.1:
Measuring Differences in Dispersion / 1.3.2:
Measuring Association / 1.3.3:
Measuring Agreement / 1.3.4:
Loglinear Marginal Models / 2:
Ordinary Loglinear Models / 2.1:
Basic Concepts and Notation / 2.1.1:
Modeling Association Among Three Variables / 2.1.2:
Applications of Loglinear Marginal Models / 2.2:
Research Questions and Designs Requiring Marginal Models / 2.2.1:
Comparing One Variable Distributions / 2.2.2:
More Complex Designs and Research Questions / 2.2.3:
Maximum Likelihood Inference for Loglinear Marginal Models / 2.3:
Sampling Methods / 2.3.1:
Specifying Loglinear Marginal Models by Constraining the Cell Probalities / 2.3.2:
Simultaneous Modeling of Joint and Marginal Distributions: Redundancy, Incompatibility and Other Issues / 2.3.3:
***Maximum Likelihood Estimates of Constrained Cell Probabilities / 2.3.4:
***A Numerical Algorithm for ML Estimation / 2.3.5:
***Efficient Computation of ML Estimates for Simultaneous Joint and Marginal Models / 2.3.6:
***Large Sample Distribution of ML estimates / 2.3.7:
Model Evaluation / 2.3.8:
Nonloglinear Marginal Models / 3:
Comparing Item Characteristics for Different Measurement Levels / 3.1:
Interval Level of Measurement / 3.1.1:
Ordinal Level of Measurement / 3.1.2:
Nominal Level of Measurement / 3.1.3:
Comparing Associations / 3.2:
Maximum Likelihood Estimation / 3.3:
Generalized exp-log Specification of Nonloglinear Marginal Models / 3.3.1:
Compatibility and Redundancy of Restrictions / 3.3.2:
Homogeneous Specification of Coefficients / 3.3.3:
***Algorithm for Maximum Likelihood Estimation / 3.3.4:
***Asymptotic Distribution of ML Estimates / 3.3.5:
Marginal Analysis of Longitudinal Data / 4:
Trend Data / 4.1:
Comparing Net Changes in More Than One Characteristic / 4.1.1:
Simultaneous Tests for Restrictions on Association and Net Change: Modeling Joint and Marginal Tables / 4.1.2:
Panel Data: Investigating Net Changes in One Characteristic / 4.2:
Overall Net Changes; Cumulative Proportions; Growth Curves / 4.2.1:
Subgroup Comparisons of Net Changes / 4.2.2:
Changes in Associations / 4.2.3:
Gross Changes in One Characteristic / 4.3:
Comparing Turnover Tables for Different Periods / 4.3.1:
Comparing Summary Measures of Gross Change / 4.3.2:
Extensions; Net Plus Gross Changes; Multiway Turnover Tables; Subgroup Comparisons / 4.3.3:
Net and Gross Changes in Two Related Characteristics / 4.4:
Net Changes in Two Characteristics / 4.4.1:
Changes in Association Between Two Changing Characteristics / 4.4.2:
Gross Changes in Two Characteristics / 4.4.3:
Combining Hypotheses about Net and Gross Changes / 4.4.4:
Minimally Specified Models for Comparing Tables with Overlapping Marginals; Detection of Problematic Models / 4.5:
Causal Analyses: Structural Equation Models and (Quasi-) Experimental Designs / 5:
SEMs - Structural Equation Models / 5.1:
SEMs for Categorical Data / 5.1.1:
An Example: Women's Role / 5.1.2:
Marginal Modeling and Categorical SEM / 5.1.3:
Analysis of (Quasi-)Experimental Data / 5.2:
The One-group Pretest-Posttest Design / 5.2.1:
The Nonequivalent Control Group Design / 5.2.2:
A Truly Experimental Design / 5.2.3:
Marginal Modeling with Latent Variables / 6:
Latent Class Models / 6.1:
Latent Marginal Homogeneity / 6.2:
Loglinear and Nonloglinear Latent Class Models: Equal Reliabilities / 6.3:
Restrictions on Conditional Responses Probabilities / 6.3.1:
Restrictions on Odds Ratios / 6.3.2:
Restrictions on Percentage Differences / 6.3.3:
Restrictions on Agreement / 6.3.4:
Marginal causal analyses / 6.4:
SEMs with latent marginal homogeneity / 6.4.1:
Latent Variable SEMs for Clustered Data / 6.4.2:
Estimation of Marginal Models with Latent Variables Using the EM Algorithm / 6.5:
Basic EM Algorithm / 6.5.1:
***General EM for Marginal Models / 6.5.2:
***Marginal Restrictions in Combination with a Loglinear Model for the Complete Table / 6.5.3:
***Speeding up of the EM Algorithm for Separable Models / 6.5.4:
Conclusions, Extensions, and Applications / 6.5.5:
Marginal Models for Continuous Variables / 7.1:
Changes in Means / 7.1.1:
Changes in Correlation and Regression Coefficients / 7.1.2:
Alternative Procedures and Models / 7.2:
Alternative Estimation Procedures: WLS and GEE / 7.2.1:
Modeling Dependent Observations: Marginal, Random Effects, and Fixed Effects Models / 7.2.2:
Specific Applications / 7.3:
Multiple Responses / 7.3.1:
Categorical Dyadic Data / 7.3.2:
Mokken Scale Analysis / 7.3.3:
Problems and Future Developments / 7.4:
Software, Generalized exp-log Routines, and Website / 7.5:
References
Author Index
Subject Index
Introduction / 1:
Marginal Models for Categorical Data / 1.1:
Historical and Comparable Approaches / 1.2:
36.
図書
Wolfgang Pies, Alarich Weiss ; 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:
Condensed Matter / Group III:
Climate definition (See Vol.4C1)
Magnetic and Other Properties of Oxides and Related Compounds / Volume 4:
See Vol. 19A / 1.1-l1.4:
Climate modeling / A.R. ForresterPart B:
Nitroxide radicals / W. Gräper12.1:
See Vol. 19B
Non-iron garnets / 1.5.4:
3d elements and C, Si, Ge, Sn or Pb (Y. NAKAMURA) / 5.0:
Formal classification criteria
Nitroxides formed by trapping with nitrosoalkanes (See Vol.17D1) / 1.5.4.1:
Physical classification criteria
Nitroxides formed by trapping with nitrosoarenes, nitrosoheterocycles and nitroarenes (See Vol.17D1)
Magnetic susceptibility data / 1.5.4.2:
Operational classification criteria / A:
Nitroxides formed by trapping with acyclic nitrones
Paramagnetic susceptibility above the ordering temperature / 1.5.4.3:
References for 12 / B:
alpha-Phenyl N-t-butylnitrone
Susceptibility data at low temperatures in the vicinity of an ordering temperature / 1.5.4.4:
alpha-Methylene-N-t-butyl nitrone / C:
Summary of susceptibility parameters and transition temperatures / 1.5.4.5:
The present global surface climate
N,N'-Di-t-butyl ethylidene dinitrone / 13.1:
Tables of nuclear quadrupole interaction parameters (See Vol.20A) / 1.5.4.5.1:
The earthÆs surface as part of the global climate system
Alloys and compounds with C and Si
alpha-4-(Pyridinyl-1-oxide)N-t-butyl nitrone / 13.2:
Crystallographic and structural data / 1.5.4.5.2:
Selected concepts in quantitative climate description
Alloys and compounds with Ge
alpha-2- and 3-(Pyridinyl-1-oxide)N-t-butyl nitrones / 13.3:
Location and environment of ions in the unit cell of the garnet lattice / 1.5.4.5.3:
Quantitative respresentation of the global surface climate
Alloys and compounds with Sn
Values of <(a0 /r)3 > for the valence states of some neutral atoms / 13.4:
alpha-4-Pyridinyl and alpha-2,3 and 4-(N-alkylpyridinium) N-t-butyl nitrones
Oxygen coordinates, interionic spacings, and angles of compounds with garnet structure / 1.5.4.6:
Climate classification
alpha-(2-Sulfonyloxyphenyl)N-t-butyl nitrone sodium salt / 13.5:
Lattice parameters and density of garnet systems / 1.5.4.7:
List of abbreviations used in chapter 13
MM'X ternary compounds / D:
alpha-(2,4,6-Trimethoxyphenyl)N-t-butyl nitrone / 13.6:
Magnetic structure of DyAlG and ErGaG / 1.5.4.8:
References for 13
References for 1.5.4
alpha-(2,6-Di-t-butyl-4-hydroxyphenyl)N-t-butyl nitrone
Specific Surfaces Climates (See Vol.4C1) / 1.5.5:
Results of magnetic resonance experiments / 6.4.10:
Heusler alloys (P.J. WEBSTER, K.R.A. ZIEBECK)
Climate variations (See Vol.4C1)
alpha-(p-Dodecyloxyphenyl)N-t-butyl nitrone
Paramagnetic resonance of rare earth impurities in diamagnetic garnets / 1.5.5.1:
The Planetary Boundary Layer (PBL) (See Vol.4C1)
Crystallographic structure
Other alpha-aryl N-t-butyl nitrones
Paramagnetic resonance of impurities with d electrons in diamagnetic garnets / 1.5.5.1.1:
Chemical order
alpha-Phenyl N-(1,3-dioxanyl)nitrone
Paramagnetic resonance of impurities in paramagnetic garnets / 1.5.5.1.1.1:
General model
alpha(4-(N-Methylpyridinium))N-t-butyl nitrone
Deuterium - Chlorine (See Vol.20A) / 1.5.5.1.1.2:
Nuclear magnetic resonance experiments / 6.4.14:
Chlorine (continued) - Rubidium (See Vol.20B)
A statistical model / 5.5:
Other alpha-aryl nitrones / 50:
Results from optical spectra / 1.5.5.1.1.3:
Zirconium, Niobium, Molybdenum, Technetium
Preferential disorder
Other N-t-butyl nitrones / 51:
Crystal field analysis and parameters / 1.5.5.1.2:
Indium
Magnetic order
N-Cyanoisopropyl nitrones / 52:
Summary of references for some results from optical measurements / 1.5.5.1.2.1:
Antimony
Ferromagnetic order / 5.6:
alpha-Methylene and alpha-ethylene N-duryl nitrones / 53:
Spin-lattice relaxation of paramagnetic ions in garnets / 1.5.5.1.2.2:
- 55 Iodine
Antiferromagnetic order
Nitrones derived from sugars / 56:
Cesium / 1.5.5.2:
Bulk magnetic properties
Nitroxides formed by trapping with cyclic nitrones / 57:
Barium / 1.5.5.2.1:
5,5-Dimethyl-1-pyrroline N-oxide / 58:
The dependence of the spin-lattice relaxation time on magnetic field
Lanthanides / 1.5.5.2.2:
Ferromagnets X2 MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2 MnZ with X = 3d element
5-Heptyl-3,3,5-trimethyl-1-pyrroline N-oxide / 60:
Specific heat of rare earth gallium garnets
Rhenium / 1.5.5.2.2.2:
X2 MnZ with X = 4d element
5-Hexadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 61:
Specific heat of two rare earth aluminium garnets
Gold / 1.5.5.2.3:
Antiferromagnets X2 MnZ
5-Octadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 62:
Faraday rotation in paramagnetic non-iron garnets
Mercury / 1.5.5.2.3.1:
4,5,5-Trimethyl-1-pyrroline N-oxide / 63:
Magnetomechanical properties
Bismuth / 1.5.5.2.3.2:
3,5,5-Trimethyl-1-pyrroline N-oxide
Magnetostriction of rare earth gallates and germanates with a garnet structure
Diagrams of NQR frequencies and related properties / 1.5.5.2.3.3:
X2 MnZ with X = 5d element
2,5,5-Trimethyl-1-pyrroline N-oxide
Macroscopic magnetoelastic tensors for paramagnetic rare earth ions in diamagnetic garnet hosts
Ferromagnets X2 YZ for Y other than Mn / 1.5.5.2.4:
Other 5,5-dialkyl-1-pyrroline N-oxides
Magnetoacoustic properties
Co2 YZ with Y = 4A, 5A element / 1.5.5.2.4.1:
2,2,5,5-Tetramethyl-3-imidazoline N-oxides
Neutron diffraction results near and below the magnetic ordering point
Co2 YZ with Y = 6A, 7A element / 1.5.5.2.4.2:
4-Methoxycarbonyl-3,3,5,5-tetra-alkyl-1-pyrroline N-oxide
Structure formulas / 1.5.5.2.4.3:
Fe2 YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2 FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Mn2 VZ / 1.5.5.2.4.5:
Cyclic dialkyl nitroxides
Spinels
Arrangement / 1.5.5.2.5:
Paramagnets X2 YZ with X, Y = 3d element
Aziridinyl 1-oxyls
Quaternary alloys / B.A. Calhoun1.5.5.2.6:
Azetidinyl 1-oxyls
(XX*)2 MnSn with X, X* 3d elements / 1.5.5.2.6.1:
Pyrrolidinyl-1-oxyls
Ni2 (YY*)Sn with Y, Y* = 3d elements / 1.5.5.2.6.2:
Pyrrolinyl-1-oxyls
Structure / 1.5.5.2.6.3:
(XX*)2 TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2 MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2 MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2 Mn (ZZ*) / 6.1.0.1:
Isoindolinyl-oxyls
A-B exchange interaction; magnetization / 1.5.5.2.7:
Clb Intermetallic compounds XYZ / 6.1.0.2:
Oxaindolinyl-oxyls
A-A, B-B exchange interaction; magnetic order / 1.5.5.2.7.1:
Ferromagnets XMnZ with X = 3d element / 6.1.0.3:
Piperidinyl-1-oxyls
Hyperfine interactions (Môssbauer and NMR methods) / 1.5.5.2.7.2:
Ferromagnets XMnZ with X = 4d, 5d element / 6.1.0.4:
Tetrahydropyridinyl-1-oxyls
Anisotropy / 1.5.5.2.7.3:
Ferromagnets - paramagnets XYSb for Y other than Mn / 6.1.0.5:
Diaza- and triaza-cyclohexyl- and -cyclohexenyl-1-oxyls
Ferrimagnetic resonance / 1.5.5.2.7.4:
Antiferromagnets XMnZ with X = 3d, 4d, 5d element / 6.1.0.6:
Oxazinyl-1-oxyls
Accuracy / 1.5.5.2.7.5:
Quaternary alloys (XX*)MnSb with X, X* = 3d, 4d, 5d elements / 6.1.0.7:
1,4 Azaphosphacyclohexyl-1-oxyls
References for 6.0 and 6.1.0 / 1.5.5.2.7.6:
X2-x MnSb with X = 3d, 4d element / 6.1.1:
Azepinyl-1-oxyls and macrocyclic N-oxyls
Neutron diffraction and magnetic order / 1.5.5.3:
Bicyclic nitroxides
Alkyl, aryl and vinyl nitroxides / R.A. Lefever1.5.5.3.1:
Neutron diffraction theory / 1.5.5.3.2:
Aryl, diaryl and divinylnitroxides
Tables and figures / 1.5.5.3.3:
Magnetic and chemical ordering data / 6.1.1.2:
Alkyl imidoyl and nitronyl nitroxides
References for 6.1.1.1 / 1.5.5.3.3.1:
Co2 MnZ / 6.1.2:
Acyl nitroxides
Ni2 MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2 MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2 MnZ / 1.5.5.3.3.4:
Thio and sulfonyl nitroxides
Clb compounds XYZ / 1.5.5.3.3.5:
Phospho nitroxides
Polarized neutron measurements on single crystals / 1.5.5.3.4:
Other nitroxides
References for 6.4 - 6.16 / 1.5.5.3.4.1:
X2 MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3 Z / 6.1.2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H) / 1.5.5.3.4.3:
Ni ferrite with Co substitutions
Fe3-x Mnx Si / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2 YZ with Y = 3d element / 6.1.2.5:
Ge substituted Ni ferrite / 1.5.5.4:
Dynamics / 6.1.2.6:
Ni ferrite chromite / 1.5.5.4.1:
Lattice dynamics / 6.1.2.7:
Ni ferrite vanadate / 1.5.5.4.2:
Phase transitions / 6.1.2.8:
Ni ferrite aluminate / 1.5.5.4.3:
Spin dynamics / 6.1.2.9:
Ni gallate ferrite / 1.5.5.5:
Electrical properties / 6.1.2.10:
References for 6.1.2.0 - 6.1.2.9 / 1.5.5.5.1:
Electrical resistivity / 6.1.3:
Magnetoresistance / 1.5.5.5.2:
Hall effect / R. Vautier ; M. Paulus1.5.5.5.3:
Thermoelectric power / 1.5.5.5.4:
Thermal properties / 1.5.5.6:
Phase equilibria and structure / 1.5.5.6.1:
Specific heat / 6.1.3.1.1:
Phase equilibria / 1.5.5.6.1.1:
Cu2 MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-x Alx / 6.1.3.1.4:
Ionic distribution / 1.5.5.6.2:
Superconductivity / 6.1.3.1.5:
Spin arrangement / 1.5.5.7:
Hyperfine fields / 6.1.3.2:
Mössbauer spectra of Sn-doped alloys (119 Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2 Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2 MnSb, XMnSb with X = 8A element / 6.1.3.2.4:
Diffusion and oxidation coefficients / 1.5.5.7.3:
Mössbauer spectra of Sb-based alloys (121 Sb), X2 MnSb, XMnSb with X = 1B, 8A element / 6.1.3.2.5:
Ferrite thermodynamics / 1.5.5.7.4:
Mössbauer <$$$> element / 6.1.3.2.6:
Solid crystal growth / 1.5.5.7.5:
D03 , compounds Fe3 Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03 -L21 compounds Fe3-x Yx Si with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5 V0.5-x Alx / 6.1.3.4:
References for 1.5.5 / 1.5.5.8:
Metallic perovskites (PH. L'HÉRITIER, D. FRUCHART, R. MADAR, R. FRUCHART) / 1.5.6:
Magnetoresistance and thermomagnetic effect / 1.5.6.1:
Crystallographic properties of Mc XMf 3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of Mc XMf 3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
Mc XTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
Mc XCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
Mc XM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
Mc XFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
Mc XCo3 / 6.1.3.6:
Mc XNi3 / 1.5.6.3.6:
Magnetocrystalline anisotropy in Mn ferrite / 1.5.6.4:
References for 1.5.6 / 6.1.3.6.2:
Magnetocrystalline anisotropy in Mn ferrite with substitutions
Alloys and compounds of 4d or 5d elements with main group elements (S. MISAWA, K. KANEMATSU) / 6.1.3.6.3:
Linear magnetostriction / 1.6.1:
Magnetic annealing / 6.1.3.6.4:
Alloys and compounds of Zr / 6.1.3.7:
Domains and domain walls / 1.6.2.1:
ZrHx / 6.1.3.7.1:
Domain wall motion experiments / 1.6.2.2:
ZrCuAl / 6.1.3.7.2:
Domain structure / 1.6.2.3:
ZrZn2 / 6.1.3.8:
Response of magnetization to a field / 1.6.2.4:
Other compounds of Zr / 6.1.3.8.1:
High temperature susceptibility / 1.6.3:
Alloys and compounds of Nb / 6.1.3.8.2:
High field susceptibility in the ferrimagnetic state / 1.6.3.1:
Nb4 hydride / 6.1.3.8.3:
Permeability variation with composition, impurities, irradiation, and grain size / 1.6.3.2:
A15 and sigma-phase alloys of Nb / 6.1.3.8.4:
Permeability vs. temperature / 1.6.3.3:
Nb carbides / 6.1.3.8.5:
Permeability vs. pressure / 1.6.3.4:
Nb nitride / 6.1.3.8.6:
Permeability vs. frequency / 1.6.3.5:
Nb chalcogenides / 6.1.3.8.7:
After-effect, disaccommodation, and viscosity / 1.6.4:
Alloys and compounds of Mo / 6.1.3.9:
Microwave properties / 1.6.4.1:
Mo borides / 6.1.3.9.1:
Resonance line width / 1.6.4.2:
MoAlGe / 6.1.3.9.2:
Spectroscopic splitting factor / 1.6.4.3:
Mo carbides / 6.1.3.10:
Optical properties (absorption) / 1.6.4.4:
Mo chalcogenides / 6.1.3.11:
References for 6.1.3.0 - 6.1.3.10 / 1.6.5:
Compounds of Ru / 6.1.4:
Alloys of Rh / 1.6.6:
Alloys and compounds of Pd / C.J. Kriessman ; A.P. Greifer1.6.7:
Pd hydrides / 1.6.7.1:
Pd-Li and Pd-Na compounds / 1.6.7.2:
fcc alloys of Pd / 1.6.7.3:
MgMn ferrites and MgMn ferrites with substitutions / 1.6.7.4:
Other compounds of Pd / 6.1.4.2.0:
Alloys and compounds of Hf / 1.6.8:
Crystallographic properties, physical properties, phase data, magnetic moments / 1.6.8.1:
Hf hydrides / 6.1.4.2.2:
HfZn2 / 1.6.8.2:
Losses / 1.6.8.3:
Hf carbides / 6.1.4.2.4:
Square-loop properties / 1.6.8.4:
Hf chalcogenides / 6.1.4.2.5:
Alloys and compounds of Ta / 1.6.9:
Other ferrite systems containing Mg / 1.6.9.1:
Ta hydrides / 6.1.4.3.0:
Ta carbides / 1.6.9.2:
Ta chalcogenides / 1.6.9.3:
Alloys and compounds of W / 1.6.10:
W borides / 1.6.10.1:
WP / 6.1.4.3.3:
W chalcogenides / 1.6.10.3:
Alloys and compounds of Re / 1.6.11:
Compounds of Os / 1.6.12:
Alloys and compounds of Pt / 1.6.13:
Pt-Li and Pt-Na compounds / 6.1.4.3.6:
fcc alloys of Pt / 1.6.13.2:
Other systems containing trivalent and higher valency cations / 6.1.4.3.7:
Other compounds of Pt
References for 1.6 / 6.1.4.3.8:
References for 6.1.4.1 - 6.1.4.3 / 6.1.4.4:
Zn, Zn-Fe, Zn-Ti, Zn-Li, Zn-Ti-Li, Zn-Cd, Zn-Mg, Zn-Co, and Zn-Cu ferrites / V.J. Folen6.1.5:
Zn-Ni, Zn-Ni-Ge, and Zn-Ni-Sb ferrites / 6.1.5.2:
References for 6.1.5.1 and 6.1.5.2 / 6.1.5.3:
Li ferrite / 6.1.6:
Li-Cr ferrites / 6.1.6.2:
Li-Zn, Li-Zn-Co, Li-Ti, Li-Zn-Ti, and Li-Zn-Ti-Al-Mn ferrites / 6.1.6.3:
Li-A1, Li-Ga, Li-Cd ferrites and Li-Fe ferrites / 6.1.6.4:
Li-Mn, Li-V, and Li-Ge ferrites / 6.1.6.5:
References for 6.1.6.1 - 6.1.6.5 / 6.1.6.6:
Cu-Zn and Cu-Cd ferrites / 6.1.7:
Cu-Cr ferrites / 6.1.7.3:
Cu-Mg ferrites / 6.1.7.4:
Other ferrites, oxide compounds, and oxide mixtures containing Cu / 6.1.7.5:
References for 6.1.7.1 - 6.1.7.5 / 6.1.7.6:
Co ferrite / 6.1.8:
Co ferrite and Co-Fe mixed oxides / 6.1.8.2:
Co-Zn ferrites / 6.1.8.3:
Co-Cd, Co-Mg, Co-Ni, and Co-Cr ferrites / 6.1.8.4:
References for 6.1.8.1 - 6.1.8.4 / 6.1.8.5:
Cr spinels
Cr oxide-spinels
Binary Cr oxide-spinels / 6.2.1.1:
Ternary and quarternary Cr oxide-spinels / 6.2.1.2:
References to 6.2.1.1 and 6.2.1.2 / 6.2.1.3:
Cr sulfide, selenide and telluride spinels / G.H. Stauss
Comparison of the crystallographic, electrical, and magnetic properties of Cr spinels containing S, Se and Te / 6.2.2.1:
Cd-Cr selenide spinel / 6.2.2.2:
Cd-Cr selenide spinel with substitutions / 6.2.2.4:
Cd-Cr sulfide spinel and substituted compounds / 6.2.2.5:
Hg-Cr selenide, Hg-Cr sulfide spinels and their substituted compounds / 6.2.2.6:
Cu-Cr S, Se and Te spinels / 6.2.2.7:
Cu-Cr S, Se and Te spinels with substitutions / 6.2.2.8:
Fe-Mn-, Co- and Zn-Cr S and Se spinels and their substituted compounds / 6.2.2.9:
References for 6.2.2.1 - 6.2.2.9 / 6.2.2.10:
Further spinels
V spinels and substituted V spinels
Ge spinels and substituted Ge spinels / 6.3.1.1:
Rh spinels and substituted Rh spinels
References to 6.3.1 - 6.3.3
Al spinels and substituted Al spinels
Ga spinels and substituted Ga spinels
In spinels and substituted In spinels
References to 6.3.5 - 6.3.7
Co spinels and substituted Co spinels / 6.3.9:
Ni spinels and substituted Ni spinels / 6.3.10:
Te spinels and substituted Te spinels / 6.3.11:
Mn spinels and substituted Mn spinels / 6.3.12:
Ti spinels and substituted Ti spinels / 6.3.13:
References to 6.3.9 - 6.3.13 / 6.3.14:
Mo spinels and substituted Mo spinels / 6.3.15:
W spinels and substituted W spinels / 6.3.16:
Nb spinels and substituted Nb spinels / 6.3.17:
Zr spinels / 6.3.18:
Sb spinels and substituted Sb spinels / 6.3.19:
Sn spinels and substituted Sn spinels / 6.3.20:
Si spinels and substituted Si spinels / 6.3.21:
References to 6.3.15 - 6.3.21 / 6.3.22:
Hexagonal ferrites
Quantities and units / 7.0:
Chemical compositions and phase diagrams of hexagonal ferrites
Crystal structures
Paramagnetic properties of ferrites with hexagonal crystal structures / 7.5:
M (magnetoplumbite)-type ferrites / 7.6:
Survey of the chemical substitutions in the M structure and room temperature lattice constants / 7.6.1:
Electric and dielectric properties / 7.6.2:
Môssbauer spectra, saturation magnetization, and Curie temperature / 7.6.3:
Magneto-crystalline anisotropy / 7.6.4:
Hysteresis properties / 7.6.6:
High-frequency magnetic properties / 7.6.7:
Magnetic spectrum / 7.6.7.1:
Line width of the ferromagnetic resonance / 7.6.7.2:
W-type ferrites / 7.7:
Survey of chemical substitutions in the W structure / 7.7.1:
Saturation magnetization and Curie temperature / 7.7.2:
Y-type ferrites / 7.7.4:
Lattice parameters / 7.8.1:
Mössbauer spectra, saturation magnetization, spectroscopic splitting factor, and Curie temperature / 7.8.2:
Magneto-crystalline anisotropy derived from static measurements / 7.8.4:
Magneto-crystalline anisotropy field derived from the ferromagnetic resonance frequency / 7.8.4.2:
Magnetic spectrum of the initial permeability / 7.8.5:
Non-linear effects in the ferromagnetic resonance / 7.8.6.2:
Z-type ferrites / 7.9:
Resistivity / 7.9.1:
U-type ferrites / 7.9.3:
Calcium ferrites / 7.11:
Index of substances for III/4a and III/4b / 7.12:
The references are presented below the abstract of each pdf-document to allow cross-reference linking / Group V:
Title Page, Preface
Introductory material
37.
学位
Tetsuo Saji
出版情報:
東京 : 東京工業大学, 1975
子書誌情報:
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38.
学位
Akihiko Nukui
出版情報:
東京 : 東京工業大学, 1973
子書誌情報:
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39.
学位
Takumi Hikida
出版情報:
東京 : 東京工業大学, 1973
子書誌情報:
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40.
図書
American Institute of Mining, Metallurgical and Petroleum Engineers
出版情報:
Dallas : Offshore Technology Conf., 1970 v. ; 28 cm
子書誌情報:
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41.
図書
IFS
出版情報:
IFS, 1977
子書誌情報:
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42.
学位
Hong Lim Lee
出版情報:
東京 : 東京工業大学, 1978
子書誌情報:
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43.
図書
introduction, text, translation and notes by S.D. Joshi and J.A.F. Roodbergen
44.
図書
by Ivan I. Artobolevsky ; translated from the Russian by Nicholas Weinstein
45.
図書
editor, Sokrates T. Pantelides
出版情報:
New York : Pergamon Press, c1978 xi, 488 p. ; 27 cm
子書誌情報:
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46.
図書
BHRA Fluid Engineering ; H. S. Stephens, N. G. Coles, J. A. Clarke
出版情報:
BHRA Fluid Engineering, 1977
シリーズ名:
Proceedings of the International Symposium on Dredging Technology ;
子書誌情報:
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47.
図書
edited by Ilpo Laine, Olli Lehto, and Tuomas Sorvali
目次情報:
続きを見る
Preface
Motivation
Purpose
Readers
Structure
Downloads
Acknowledgments
About the Author
Contents
List of Abbreviations
About Relationships and ORN / Part I:
Introduction Including a Brief History of Relationships / Chapter I:
Relationships / 1.1:
A Brief History of Relationships / 1.2:
The paper-based system / 1.2.1:
The computerized file-based system / 1.2.2:
Early data models and DBMSs / 1.2.3:
The relational model and RDBMS / 1.2.4:
The entity-relationship model and database / 1.2.5:
Semantic models, the object model, and the ODBMS / 1.2.6:
The object-relational DBMS / 1.2.7:
Problems in Modeling and Implementing Relationships / 1.3:
Preview of a Solution / 1.4:
Object Relationship Notation (ORN) / Chapter 2:
Syntax / 2.1:
Graphical Representation / 2.2:
Semantics / 2.3:
Examples / 2.4:
<*-to-*> / 2.4.1:
<1-to-*>|- / 2.4.2:
<0..1-to-*>|- / 2.4.3:
<0..1-to*>|-X- / 2.4.4:
<0..1-to-1..*>? / 2.4.5:
!<0..1-to-*> / 2.4.6:
'<*-to-1..*> / 2.4.7:
Flashback to the Company Database / 2.5:
ORN Simulator A Modeling Tool Where Associations Come Alive / Chapter 3:
Creating a Database Model and a Database / 3.1:
Verifying Association Semantics / 3.2:
Architecture / 3.3:
Benefits / 3.4:
Association Patterns Emerging from a Variety of Association Types / Chapter 4:
Context / 4.1:
Pattern Descriptions / 4.2:
"is defined by" pattern / 4.2.1:
"is recorded for" pattern / 4.2.2:
"is a realization of" pattern / 4.2.3:
"is associated by" pattern / 4.2.4:
"is an update of" pattern / 4.2.5:
"is a part of" pattern / 4.2.6:
"is a" pattern / 4.2.7:
Patterns in Database Modeling and Implementation / 4.3:
Associations That Don't Conform to a Pattern / 4.4:
Conclusion / 4.5:
Comparing ORN to Similar Declarative Schemes / Chapter 5:
Schemes for Relational Databases and Object Relations / 5.1:
Null constraint / 5.1.1:
Key constraints / 5.1.2:
Referential integrity rules / 5.1.3:
Subjectivity constraints / 5.1.4:
Additional relationship semantics / 5.1.5:
Schemes for the ER model / 5.2:
Schemes in ODBMSs / 5.3:
Whole-Part Properties and Dimensions for Class Diagrams / 5.4:
Proposed association dimensions for Class diagrams / 5.4.1:
Primary characteristics for whole-part relationships / 5.4.2:
Secondary characteristics for whole-part relationships / 5.4.3:
Using ORN to Develop a Database System / 5.5:
ORN Additive A Tool for Extending SQL Server with ORN / Chapter 6:
Capabilities, Operations, and Architecture / 6.1:
Capabilities / 6.1.1:
Operations and architecture / 6.1.2:
The +ornddl command / 6.1.3:
The +orndml command / 6.1.4:
ORN Additive DDL Statements / 6.2:
USE statement / 6.2.1:
Constraint statement / 6.2.2:
Delete statement / 6.2.3:
Set Orn_Message_Number_Base statement / 6.2.4:
Example of a query file with ORN Additive DDL statements / 6.2.5:
ORN Additive DML Statements / 6.3:
Use statement / 6.3.1:
Begin Transaction statement / 6.3.2:
Save Transaction statement / 6.3.3:
Commit Transaction statement / 6.3.4:
Rollback Transaction statement / 6.3.5:
Set Rxc_Mode statement / 6.3.6:
Enable/Disable Orn_Triggers statement / 6.3.7:
Example of query file with ORN Additive DML statements / 6.3.8:
Object Relater Plus (OR+) An ORN-extended Object DBMS / 6.4:
Capabilities and Compatibilities / 7.1:
ODDL / 7.2:
ODDL specification / 7.2.1:
/ 7.2.2:
Control commands / 7.2.3:
ODML / 7.3:
Architecture, Implementation, and Extensibility / 7.4:
Implementation / 7.4.1:
Extensibility / 7.4.3:
Mapping Database Models to DDLs From ORN-Extended Class Diagrams to ORN-Extended DBMSs / 7.5:
Mapping an ORN-Extended Model to an ORN-Extended SQL / 8.1:
Transformating the model for a relational database / 8.1.1:
Mapping classes to tables / 8.1.2:
Mapping associations to foreign keys / 8.1.3:
Mapping an ORN-Extended Model to an Object DDL / 8.2:
Transforming the model for an object database / 8.2.1:
Mapping classes to class definitions and extents / 8.2.2:
Mapping associations to object-based attributes / 8.2.3:
Association Semantics Dealing with the Subtleties, Inconsistencies, and Ambiguities / 8.3:
Inconsistencies / 9.1:
Within an / 9.1.1:
Involving combinations / 9.1.2:
Inconsistency Detection / 9.2:
Ambiguities / 9.3:
Associations as Functions / 9.4:
Adding ORN to a DBMS / 9.5:
A Conceptual Implementation of ORN Exploring Semantic Circularity and Ambiguity / Chapter 10:
Algorithms / 10.1:
Algorithm CreateObject / 10.1.1:
Transaction operations / 10.1.2:
Supporting pseudocode for complex object operations / 10.1.3:
Algorithm CreateLink / 10.1.4:
Algorithm DeleteObject / 10.1.5:
Algorithm DestroyLink / 10.1.6:
Algorithm ChangeLink / 10.1.7:
Link Cycles / 10.2:
Circularity / 10.2.1:
The Theorem for ORN Semantic Clarity and its proof / 10.2.2:
Adding ORN to the SQL Standard for RDBMSs / 10.3:
Overview of SQL Association Capabilities / 11.1:
Proposed ORN Extension to SQL / 11.3:
Adding ORN to the ODMG Standard for ODMSs / 11.4:
Adding ORN to ODL / 12.1:
Associations in ODL / 12.2.1:
Adding ORN syntax / 12.2.2:
Adapting ORN semantics to ODL / 12.2.3:
Class Transaction / 12.3:
Method new() / 12.3.2:
Method delete() / 12.3.3:
Method _enforce_binding() / 12.3.4:
Method form_tpR() / 12.3.5:
Method drop_tpR() / 12.3.6:
Method_enforce_explicit_binding() / 12.3.7:
Method change_tpR()
Example / 12.3.9:
Bibliography / 12.4:
Index
Preface
Motivation
Purpose
48.
図書
Ali Hasan Nayfeh
目次情報:
続きを見る
Introduction / 1.:
Parameter Perturbations / 1.1.:
An Algebraic Equation / 1.1.1.:
The van der Pol Oscillator / 1.1.2.:
Coordinate Perturbations / 1.2.:
The Bessel Equation of Zeroth Order / 1.2.1.:
A Simple Example / 1.2.2.:
Order Symbols and Gauge Functions / 1.3.:
Asymptotic Expansions and Sequences / 1.4.:
Asymptotic Series / 1.4.1.:
Asymptotic Expansions / 1.4.2.:
Uniqueness of Asymptotic Expansions / 1.4.3.:
Convergent versus Asymptotic Series / 1.5.:
Nonuniform Expansions / 1.6.:
Elementary Operations on Asymptotic Expansions / 1.7.:
Exercises
Straightforward Expansions and Sources of Nonuniformity / 2.:
Infinite Domains / 2.1.:
The Duffing Equation / 2.1.1.:
A Model for Weak Nonlinear Instability / 2.1.2.:
Supersonic Flow Past a Thin Airfoil / 2.1.3.:
Small Reynolds Number Flow Past a Sphere / 2.1.4.:
A Small Parameter Multiplying the Highest Derivative / 2.2.:
A Second-Order Example / 2.2.1.:
High Reynolds Number Flow Past a Body / 2.2.2.:
Relaxation Oscillations / 2.2.3.:
Unsymmetrical Bending of Prestressed Annular Plates / 2.2.4.:
Type Change of a Partial Differential Equation / 2.3.:
Long Waves on Liquids Flowing down Incline Planes / 2.3.1.:
The Presence of Singularities / 2.4.:
Shift in Singularity / 2.4.1.:
The Earth-Moon-Spaceship Problem / 2.4.2.:
Thermoelastic Surface Waves / 2.4.3.:
Turning Point Problems / 2.4.4.:
The Role of Coordinate Systems / 2.5.:
The Method of Strained Coordinates / 3.:
The Method of Strained Parameters / 3.1.:
The Lindstedt-Poincare Method / 3.1.1.:
Transition Curves for the Mathieu Equation / 3.1.2.:
Characteristic Exponents for the Mathieu Equation (Whittaker's Method) / 3.1.3.:
The Stability of the Triangular Points in the Elliptic Restricted Problem of Three Bodies / 3.1.4.:
Characteristic Exponents for the Triangular Points in the Elliptic Restricted Problem of Three Bodies / 3.1.5.:
A Simple Linear Eigenvalue Problem / 3.1.6.:
A Quasi-Linear Eigenvalue Problem / 3.1.7.:
The Quasi-Linear Klein-Gordon Equation / 3.1.8.:
Lighthill's Technique / 3.2.:
A First-Order Differential Equation / 3.2.1.:
The One-Dimensional Earth-Moon-Spaceship Problem / 3.2.2.:
A Solid Cylinder Expanding Uniformly in Still Air / 3.2.3.:
Expansions by Using Exact Characteristics--Nonlinear Elastic Waves / 3.2.4.:
Temple's Technique / 3.3.:
Renormalization Technique / 3.4.:
Limitations of the Method of Strained Coordinates / 3.4.1.:
The Methods of Matched and Composite Asymptotic Expansions / 3.5.1.:
The Method of Matched Asymptotic Expansions / 4.1.:
Introduction--Prandtl's Technique / 4.1.1.:
Higher Approximations and Refined Matching Procedures / 4.1.2.:
A Second-Order Equation with Variable Coefficients / 4.1.3.:
Reynolds' Equation for a Slider Bearing / 4.1.4.:
The Method of Composite Expansions / 4.1.5.:
A Second-Order Equation with Constant Coefficients / 4.2.1.:
An Initial Value Problem for the Heat Equation / 4.2.2.:
Limitations of the Method of Composite Expansions / 4.2.4.:
Variation of Parameters and Methods of Averaging / 5.:
Variation of Parameters / 5.1.:
Time-Dependent Solutions of the Schrodinger Equation / 5.1.1.:
A Nonlinear Stability Example / 5.1.2.:
The Method of Averaging / 5.2.:
Van der Pol's Technique / 5.2.1.:
The Krylov-Bogoliubov Technique / 5.2.2.:
The Generalized Method of Averaging / 5.2.3.:
Struble's Technique / 5.3.:
The Krylov-Bogoliubov-Mitropolski Technique / 5.4.:
The Duffiing Equation / 5.4.1.:
The Klein-Gordon Equation / 5.4.2.:
The Method of Averaging by Using Canonical Variables / 5.5.:
The Mathieu Equation / 5.5.1.:
A Swinging Spring / 5.5.3.:
Von Zeipel's Procedure / 5.6.:
Averaging by Using the Lie Series and Transforms / 5.6.1.:
The Lie Series and Transforms / 5.7.1.:
Generalized Algorithms / 5.7.2.:
Simplified General Algorithms / 5.7.3.:
A Procedure Outline / 5.7.4.:
Algorithms for Canonical Systems / 5.7.5.:
Averaging by Using Lagrangians / 5.8.:
A Model for Dispersive Waves / 5.8.1.:
A Model for Wave-Wave Interaction / 5.8.2.:
The Nonlinear Klein-Gordon Equation / 5.8.3.:
The Method of Multiple Scales / 6.:
Description of the Method / 6.1.:
Many-Variable Version (The Derivative-Expansion Procedure) / 6.1.1.:
The Two-Variable Expansion Procedure / 6.1.2.:
Generalized Method--Nonlinear Scales / 6.1.3.:
Applications of the Derivative-Expansion Method / 6.2.:
Forced Oscillations of the van der Pol Equation / 6.2.1.:
Parametric Resonances--The Mathieu Equation / 6.2.4.:
The van der Pol Oscillator with Delayed Amplitude Limiting / 6.2.5.:
Limitations of the Derivative-Expansion Method / 6.2.6.:
Limitations of This Technique / 6.3.:
Generalized Method / 6.4.:
A General Second-Order Equation with Variable Coefficients / 6.4.1.:
A Linear Oscillator with a Slowly Varying Restoring Force / 6.4.3.:
An Example with a Turning Point / 6.4.4.:
The Duffing Equation with Slowly Varying Coefficients / 6.4.5.:
Reentry Dynamics / 6.4.6.:
Advantages and Limitations of the Generalized Method / 6.4.7.:
Asymptotic Solutions of Linear Equations / 7.:
Second-Order Differential Equations / 7.1.:
Expansions Near an Irregular Singularity / 7.1.1.:
An Expansion of the Zeroth-Order Bessel Function for Large Argument / 7.1.2.:
Liouville's Problem / 7.1.3.:
Higher Approximations for Equations Containing a Large Parameter / 7.1.4.:
Homogeneous Problems with Slowly Varying Coefficients / 7.1.5.:
Reentry Missile Dynamics / 7.1.7.:
Inhomogeneous Problems with Slowly Varying Coefficients / 7.1.8.:
Successive Liouville-Green (WKB) Approximations / 7.1.9.:
Systems of First-Order Ordinary Equations / 7.2.:
Expansions Near an Irregular Singular Point / 7.2.1.:
Asymptotic Partitioning of Systems of Equations / 7.2.2.:
Subnormal Solutions / 7.2.3.:
Systems Containing a Parameter / 7.2.4.:
Homogeneous Systems with Slowly Varying Coefficients / 7.2.5.:
The Langer Transformation / 7.3.:
Problems with Two Turning Points / 7.3.3.:
Higher-Order Turning Point Problems / 7.3.4.:
Higher Approximations / 7.3.5.:
An Inhomogeneous Problem with a Simple Turning Point--First Approximation / 7.3.6.:
An Inhomogeneous Problem with a Simple Turning Point--Higher Approximations / 7.3.7.:
An Inhomogeneous Problem with a Second-Order Turning Point / 7.3.8.:
Turning Point Problems about Singularities / 7.3.9.:
Turning Point Problems of Higher Order / 7.3.10.:
Wave Equations / 7.4.:
The Born or Neumann Expansion and The Feynman Diagrams / 7.4.1.:
Renormalization Techniques / 7.4.2.:
Rytov's Method / 7.4.3.:
A Geometrical Optics Approximation / 7.4.4.:
A Uniform Expansion at a Caustic / 7.4.5.:
The Method of Smoothing / 7.4.6.:
References and Author Index
Subject Index
Introduction / 1.:
Parameter Perturbations / 1.1.:
An Algebraic Equation / 1.1.1.:
49.
図書
A.R. Forrester, F.A. Neugebauer : Hrsg., H. Fischer, und K.-H. Hellwege
目次情報:
続きを見る
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
Climate definition (See Vol.4C1)
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds / Volume 4:
Introduction / 12:
Magnetic and Other Properties of Oxides and Related Compounds
General introduction / M. Hantel1.1-l1.4:
See Vol. 19A / Subvolume B:
General remarks / 6:
Climate modeling / A.R. Forrester
Alloys and compounds of 3d elements with main group elements / 1.2:
Literature covered and selection of data / W. Gräper12.1:
Nitroxide radicals
See Vol. 19B
Non-iron garnets / 1.3:
Arrangement of tables and data
3d elements and C, Si, Ge, Sn or Pb (Y. NAKAMURA) / 5.0:
Formal classification criteria
Nitroxides formed by trapping with nitrosoalkanes (See Vol.17D1) / 1.4:
Abbreviations and units used for presenting the data
Physical classification criteria / 6.3:
Nitroxides formed by trapping with nitrosoarenes, nitrosoheterocycles and nitroarenes (See Vol.17D1)
Magnetic susceptibility data / 1.5.4.2:
Indexes
Ti and V alloys and compounds / A:
Operational classification criteria
Nitroxides formed by trapping with acyclic nitrones / 1.6:
Paramagnetic susceptibility above the ordering temperature / 1.5.4.3:
List of symbols and units
Cr alloys and compounds / B:
References for 12
alpha-Phenyl N-t-butylnitrone / 1.7:
Susceptibility data at low temperatures in the vicinity of an ordering temperature / 1.5.4.4:
List of universal constants
Mn alloys and compounds / C:
alpha-Methylene-N-t-butyl nitrone / 1.8:
Summary of susceptibility parameters and transition temperatures / 1.5.4.5:
The present global surface climate
Glossary of general abbreviations
Fe alloys and compounds / 5.2:
N,N'-Di-t-butyl ethylidene dinitrone / 13.1:
Tables of nuclear quadrupole interaction parameters (See Vol.20A) / 1.5.4.5.1:
Magnetization / 6.4.4:
The earthÆs surface as part of the global climate system
Alloys and compounds with C and Si / 2.1:
Introductory remarks / 13.2:
alpha-4-(Pyridinyl-1-oxide)N-t-butyl nitrone
Crystallographic and structural data / 1.5.4.5.2:
Selected concepts in quantitative climate description
Nuclear constants of quadrupolar elements
Alloys and compounds with Ge
alpha-2- and 3-(Pyridinyl-1-oxide)N-t-butyl nitrones / 13.3:
Ratios of nuclear quadrupole moments of isotopic nuclides / 1.5.4.5.3:
Location and environment of ions in the unit cell of the garnet lattice / 6.4.6:
Quantitative respresentation of the global surface climate
Alloys and compounds with Sn / 2.4:
Values of <(a0 /r)3 > for the valence states of some neutral atoms / 13.4:
alpha-4-Pyridinyl and alpha-2,3 and 4-(N-alkylpyridinium) N-t-butyl nitrones
Oxygen coordinates, interionic spacings, and angles of compounds with garnet structure / 1.5.4.6:
Climate classification
Atomic quadrupole coupling constants of some elements
Co and Ni alloys and compounds
alpha-(2-Sulfonyloxyphenyl)N-t-butyl nitrone sodium salt / 13.5:
Sternheimer antishielding factor for atoms, free ions and ions in crystals / 1.5.4.7:
Lattice parameters and density of garnet systems / 6.4.8:
List of abbreviations used in chapter 13
MM'X ternary compounds / 2.7:
Transition frequencies between nuclear quadrupole energy levels / 13.6:
alpha-(2,4,6-Trimethoxyphenyl)N-t-butyl nitrone
Magnetic structure of DyAlG and ErGaG / 1.5.4.8:
References for 13
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
References for 1.5.4 / 5.4:
alpha-(2,6-Di-t-butyl-4-hydroxyphenyl)N-t-butyl nitrone / 14:
Specific Surfaces Climates (See Vol.4C1) / 1.5.5:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Results of magnetic resonance experiments / 6.4.10:
Heusler alloys (P.J. WEBSTER, K.R.A. ZIEBECK) / 15:
Climate variations (See Vol.4C1)
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
alpha-(p-Dodecyloxyphenyl)N-t-butyl nitrone
Paramagnetic resonance of rare earth impurities in diamagnetic garnets / 1.5.5.1:
The Planetary Boundary Layer (PBL) (See Vol.4C1)
Crystallographic structure
Nuclear quadrupole resonance data
Other alpha-aryl N-t-butyl nitrones
Paramagnetic resonance of impurities with d electrons in diamagnetic garnets / 1.5.5.1.1:
Chemical order
alpha-Phenyl N-(1,3-dioxanyl)nitrone
Paramagnetic resonance of impurities in paramagnetic garnets / 1.5.5.1.1.1:
General model
Resonance data tables
alpha(4-(N-Methylpyridinium))N-t-butyl nitrone
Deuterium - Chlorine (See Vol.20A) / 1.5.5.1.1.2:
Nuclear magnetic resonance experiments / 6.4.14:
Chlorine (continued) - Rubidium (See Vol.20B)
A statistical model / 5.5:
Other alpha-aryl nitrones / 50:
Results from optical spectra / 1.5.5.1.1.3:
Zirconium, Niobium, Molybdenum, Technetium
Preferential disorder
Other N-t-butyl nitrones / 51:
Crystal field analysis and parameters / 1.5.5.1.2:
Indium
Magnetic order
N-Cyanoisopropyl nitrones / 52:
Summary of references for some results from optical measurements / 1.5.5.1.2.1:
Antimony
Ferromagnetic order / 5.6:
alpha-Methylene and alpha-ethylene N-duryl nitrones / 53:
Spin-lattice relaxation of paramagnetic ions in garnets / 1.5.5.1.2.2:
- 55 Iodine
Antiferromagnetic order
Nitrones derived from sugars / 56:
Cesium / 1.5.5.2:
Bulk magnetic properties
Nitroxides formed by trapping with cyclic nitrones / 57:
Barium / 1.5.5.2.1:
5,5-Dimethyl-1-pyrroline N-oxide / 58:
The dependence of the spin-lattice relaxation time on magnetic field
Lanthanides / 1.5.5.2.2:
Ferromagnets X2 MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2 MnZ with X = 3d element
5-Heptyl-3,3,5-trimethyl-1-pyrroline N-oxide / 60:
Specific heat of rare earth gallium garnets
Rhenium / 1.5.5.2.2.2:
X2 MnZ with X = 4d element
5-Hexadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 61:
Specific heat of two rare earth aluminium garnets
Gold / 1.5.5.2.3:
Antiferromagnets X2 MnZ
5-Octadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 62:
Faraday rotation in paramagnetic non-iron garnets
Mercury / 1.5.5.2.3.1:
4,5,5-Trimethyl-1-pyrroline N-oxide / 63:
Magnetomechanical properties
Bismuth / 1.5.5.2.3.2:
3,5,5-Trimethyl-1-pyrroline N-oxide / 4:
Magnetostriction of rare earth gallates and germanates with a garnet structure
Diagrams of NQR frequencies and related properties / 1.5.5.2.3.3:
X2 MnZ with X = 5d element
2,5,5-Trimethyl-1-pyrroline N-oxide / 4.1:
Macroscopic magnetoelastic tensors for paramagnetic rare earth ions in diamagnetic garnet hosts
Ferromagnets X2 YZ for Y other than Mn / 1.5.5.2.4:
Other 5,5-dialkyl-1-pyrroline N-oxides / 4.2:
Magnetoacoustic properties
Diagrams / 1.5.5.2.4.1:
Co2 YZ with Y = 4A, 5A element
2,2,5,5-Tetramethyl-3-imidazoline N-oxides / 4.3:
Neutron diffraction results near and below the magnetic ordering point
References for chapter 4 / 1.5.5.2.4.2:
Co2 YZ with Y = 6A, 7A element
4-Methoxycarbonyl-3,3,5,5-tetra-alkyl-1-pyrroline N-oxide
References
Structure formulas / 1.5.5.2.4.3:
Fe2 YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2 FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Index of gross molecular formulas / 1.5.5.2.4.5:
Mn2 VZ
Cyclic dialkyl nitroxides
Spinels
Index of substance names / 1.5.5.2.5:
Arrangement
Paramagnets X2 YZ with X, Y = 3d element
Aziridinyl 1-oxyls
Index of CAS registry numbers / B.A. Calhoun6.0:
Quaternary alloys
Azetidinyl 1-oxyls
Errata / 1.5.5.2.6.1:
Corrections (See Vol.31B) / 6.7.3:
(XX*)2 MnSn with X, X* 3d elements / 6.0.1:
Pyrrolidinyl-1-oxyls
Ni2 (YY*)Sn with Y, Y* = 3d elements / 1.5.5.2.6.2:
Pyrrolinyl-1-oxyls
Structure / 1.5.5.2.6.3:
(XX*)2 TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2 MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2 MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2 Mn (ZZ*) / 6.1.0.1:
Isoindolinyl-oxyls
A-B exchange interaction; magnetization / 1.5.5.2.7:
Clb Intermetallic compounds XYZ / 6.1.0.2:
Oxaindolinyl-oxyls
A-A, B-B exchange interaction; magnetic order / 1.5.5.2.7.1:
Ferromagnets XMnZ with X = 3d element / 6.1.0.3:
Piperidinyl-1-oxyls
Hyperfine interactions (Môssbauer and NMR methods) / 1.5.5.2.7.2:
Ferromagnets XMnZ with X = 4d, 5d element / 6.1.0.4:
Tetrahydropyridinyl-1-oxyls
Anisotropy / 1.5.5.2.7.3:
Ferromagnets - paramagnets XYSb for Y other than Mn / 6.1.0.5:
Diaza- and triaza-cyclohexyl- and -cyclohexenyl-1-oxyls
Ferrimagnetic resonance / 1.5.5.2.7.4:
Antiferromagnets XMnZ with X = 3d, 4d, 5d element / 6.1.0.6:
Oxazinyl-1-oxyls
Accuracy / 1.5.5.2.7.5:
Quaternary alloys (XX*)MnSb with X, X* = 3d, 4d, 5d elements / 6.1.0.7:
1,4 Azaphosphacyclohexyl-1-oxyls
References for 6.0 and 6.1.0 / 1.5.5.2.7.6:
X2-x MnSb with X = 3d, 4d element / 6.1.1:
Azepinyl-1-oxyls and macrocyclic N-oxyls
Neutron diffraction and magnetic order / 1.5.5.3:
Bicyclic nitroxides
Alkyl, aryl and vinyl nitroxides / R.A. Lefever1.5.5.3.1:
Neutron diffraction theory / 1.5.5.3.2:
Aryl, diaryl and divinylnitroxides
Tables and figures / 1.5.5.3.3:
Magnetic and chemical ordering data / 6.1.1.2:
Alkyl imidoyl and nitronyl nitroxides
References for 6.1.1.1 / 1.5.5.3.3.1:
Co2 MnZ / 6.1.2:
Acyl nitroxides
Ni2 MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2 MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2 MnZ / 1.5.5.3.3.4:
Thio and sulfonyl nitroxides
Clb compounds XYZ / 1.5.5.3.3.5:
Phospho nitroxides
Polarized neutron measurements on single crystals / 1.5.5.3.4:
Other nitroxides
References for 6.4 - 6.16 / 1.5.5.3.4.1:
X2 MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3 Z / 6.1.2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H) / 1.5.5.3.4.3:
Ni ferrite with Co substitutions
Fe3-x Mnx Si / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2 YZ with Y = 3d element / 6.1.2.5:
Ge substituted Ni ferrite / 1.5.5.4:
Dynamics / 6.1.2.6:
Ni ferrite chromite / 1.5.5.4.1:
Lattice dynamics / 6.1.2.7:
Ni ferrite vanadate / 1.5.5.4.2:
Phase transitions / 6.1.2.8:
Ni ferrite aluminate / 1.5.5.4.3:
Spin dynamics / 6.1.2.9:
Ni gallate ferrite / 1.5.5.5:
Electrical properties / 6.1.2.10:
References for 6.1.2.0 - 6.1.2.9 / 1.5.5.5.1:
Electrical resistivity / 6.1.3:
Magnetoresistance / 1.5.5.5.2:
Hall effect / R. Vautier ; M. Paulus1.5.5.5.3:
Thermoelectric power / 1.5.5.5.4:
Thermal properties / 1.5.5.6:
Phase equilibria and structure / 1.5.5.6.1:
Specific heat / 6.1.3.1.1:
Phase equilibria / 1.5.5.6.1.1:
Cu2 MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-x Alx / 6.1.3.1.4:
Ionic distribution / 1.5.5.6.2:
Superconductivity / 6.1.3.1.5:
Spin arrangement / 1.5.5.7:
Hyperfine fields / 6.1.3.2:
Mössbauer spectra of Sn-doped alloys (119 Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2 Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2 MnSb, XMnSb with X = 8A element / 6.1.3.2.4:
Diffusion and oxidation coefficients / 1.5.5.7.3:
Mössbauer spectra of Sb-based alloys (121 Sb), X2 MnSb, XMnSb with X = 1B, 8A element / 6.1.3.2.5:
Ferrite thermodynamics / 1.5.5.7.4:
Mössbauer <$$$> element / 6.1.3.2.6:
Solid crystal growth / 1.5.5.7.5:
D03 , compounds Fe3 Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03 -L21 compounds Fe3-x Yx Si with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5 V0.5-x Alx / 6.1.3.4:
References for 1.5.5 / 1.5.5.8:
Metallic perovskites (PH. L'HÉRITIER, D. FRUCHART, R. MADAR, R. FRUCHART) / 1.5.6:
Magnetoresistance and thermomagnetic effect / 1.5.6.1:
Crystallographic properties of Mc XMf 3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of Mc XMf 3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
Mc XTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
Mc XCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
Mc XM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
Mc XFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
Mc XCo3 / 6.1.3.6:
Magnetocrystalline anisotropy / 1.5.6.3.6:
Mc XNi3 / 6.1.3.6.1:
Magnetocrystalline anisotropy in Mn ferrite / 1.5.6.4:
References for 1.5.6 / 6.1.3.6.2:
Magnetocrystalline anisotropy in Mn ferrite with substitutions
Alloys and compounds of 4d or 5d elements with main group elements (S. MISAWA, K. KANEMATSU) / 6.1.3.6.3:
Linear magnetostriction / 1.6.1:
Magnetic annealing / 6.1.3.6.4:
Alloys and compounds of Zr / 6.1.3.7:
Domains and domain walls / 1.6.2.1:
ZrHx / 6.1.3.7.1:
Domain wall motion experiments / 1.6.2.2:
ZrCuAl / 6.1.3.7.2:
Domain structure / 1.6.2.3:
ZrZn2 / 6.1.3.8:
Response of magnetization to a field / 1.6.2.4:
Other compounds of Zr / 6.1.3.8.1:
High temperature susceptibility / 1.6.3:
Alloys and compounds of Nb / 6.1.3.8.2:
High field susceptibility in the ferrimagnetic state / 1.6.3.1:
Nb4 hydride / 6.1.3.8.3:
Permeability variation with composition, impurities, irradiation, and grain size / 1.6.3.2:
A15 and sigma-phase alloys of Nb / 6.1.3.8.4:
Permeability vs. temperature / 1.6.3.3:
Nb carbides / 6.1.3.8.5:
Permeability vs. pressure / 1.6.3.4:
Nb nitride / 6.1.3.8.6:
Permeability vs. frequency / 1.6.3.5:
Nb chalcogenides / 6.1.3.8.7:
After-effect, disaccommodation, and viscosity / 1.6.4:
Alloys and compounds of Mo / 6.1.3.9:
Microwave properties / 1.6.4.1:
Mo borides / 6.1.3.9.1:
Resonance line width / 1.6.4.2:
MoAlGe / 6.1.3.9.2:
Spectroscopic splitting factor / 1.6.4.3:
Mo carbides / 6.1.3.10:
Optical properties (absorption) / 1.6.4.4:
Mo chalcogenides / 6.1.3.11:
References for 6.1.3.0 - 6.1.3.10 / 1.6.5:
Compounds of Ru / 6.1.4:
Alloys of Rh / 1.6.6:
Alloys and compounds of Pd / C.J. Kriessman ; A.P. Greifer1.6.7:
Pd hydrides / 1.6.7.1:
Pd-Li and Pd-Na compounds / 1.6.7.2:
fcc alloys of Pd / 1.6.7.3:
MgMn ferrites and MgMn ferrites with substitutions / 1.6.7.4:
Other compounds of Pd / 6.1.4.2.0:
Alloys and compounds of Hf / 1.6.8:
Crystallographic properties, physical properties, phase data, magnetic moments / 1.6.8.1:
Hf hydrides / 6.1.4.2.2:
HfZn2 / 1.6.8.2:
Losses / 1.6.8.3:
Hf carbides / 6.1.4.2.4:
Square-loop properties / 1.6.8.4:
Hf chalcogenides / 6.1.4.2.5:
Alloys and compounds of Ta / 1.6.9:
Other ferrite systems containing Mg / 1.6.9.1:
Ta hydrides / 6.1.4.3.0:
Ta carbides / 1.6.9.2:
Ta chalcogenides / 1.6.9.3:
Alloys and compounds of W / 1.6.10:
W borides / 1.6.10.1:
WP / 6.1.4.3.3:
W chalcogenides / 1.6.10.3:
Alloys and compounds of Re / 1.6.11:
Compounds of Os / 1.6.12:
Alloys and compounds of Pt / 1.6.13:
Pt-Li and Pt-Na compounds / 6.1.4.3.6:
fcc alloys of Pt / 1.6.13.2:
Other systems containing trivalent and higher valency cations / 6.1.4.3.7:
Other compounds of Pt
References for 1.6 / 6.1.4.3.8:
References for 6.1.4.1 - 6.1.4.3 / 6.1.4.4:
Zn, Zn-Fe, Zn-Ti, Zn-Li, Zn-Ti-Li, Zn-Cd, Zn-Mg, Zn-Co, and Zn-Cu ferrites / V.J. Folen6.1.5:
Zn-Ni, Zn-Ni-Ge, and Zn-Ni-Sb ferrites / 6.1.5.2:
References for 6.1.5.1 and 6.1.5.2 / 6.1.5.3:
Li ferrite / 6.1.6:
Li-Cr ferrites / 6.1.6.2:
Li-Zn, Li-Zn-Co, Li-Ti, Li-Zn-Ti, and Li-Zn-Ti-Al-Mn ferrites / 6.1.6.3:
Li-A1, Li-Ga, Li-Cd ferrites and Li-Fe ferrites / 6.1.6.4:
Li-Mn, Li-V, and Li-Ge ferrites / 6.1.6.5:
References for 6.1.6.1 - 6.1.6.5 / 6.1.6.6:
Cu-Zn and Cu-Cd ferrites / 6.1.7:
Cu-Cr ferrites / 6.1.7.3:
Cu-Mg ferrites / 6.1.7.4:
Other ferrites, oxide compounds, and oxide mixtures containing Cu / 6.1.7.5:
References for 6.1.7.1 - 6.1.7.5 / 6.1.7.6:
Co ferrite / 6.1.8:
Co ferrite and Co-Fe mixed oxides / 6.1.8.2:
Co-Zn ferrites / 6.1.8.3:
Co-Cd, Co-Mg, Co-Ni, and Co-Cr ferrites / 6.1.8.4:
References for 6.1.8.1 - 6.1.8.4 / 6.1.8.5:
Cr spinels
Cr oxide-spinels / D. Bonnenberg ; H.P.J. Wijn6.2.1:
Binary Cr oxide-spinels / 6.2.1.1:
Ternary and quarternary Cr oxide-spinels / 6.2.1.2:
References to 6.2.1.1 and 6.2.1.2 / 6.2.1.3:
Cr sulfide, selenide and telluride spinels / G.H. Stauss6.2.2:
Comparison of the crystallographic, electrical, and magnetic properties of Cr spinels containing S, Se and Te / 6.2.2.1:
Cd-Cr selenide spinel / 6.2.2.2:
Cd-Cr selenide spinel with substitutions / 6.2.2.4:
Cd-Cr sulfide spinel and substituted compounds / 6.2.2.5:
Hg-Cr selenide, Hg-Cr sulfide spinels and their substituted compounds / 6.2.2.6:
Cu-Cr S, Se and Te spinels / 6.2.2.7:
Cu-Cr S, Se and Te spinels with substitutions / 6.2.2.8:
Fe-Mn-, Co- and Zn-Cr S and Se spinels and their substituted compounds / 6.2.2.9:
References for 6.2.2.1 - 6.2.2.9 / 6.2.2.10:
Further spinels
V spinels and substituted V spinels / 6.3.1:
Ge spinels and substituted Ge spinels / 6.3.1.1:
Rh spinels and substituted Rh spinels / 6.3.3:
References to 6.3.1 - 6.3.3 / 6.3.4:
Al spinels and substituted Al spinels / 6.3.5:
Ga spinels and substituted Ga spinels / 6.3.6:
In spinels and substituted In spinels / 6.3.7:
References to 6.3.5 - 6.3.7 / 6.3.8:
Co spinels and substituted Co spinels / 6.3.9:
Ni spinels and substituted Ni spinels / 6.3.10:
Te spinels and substituted Te spinels / 6.3.11:
Mn spinels and substituted Mn spinels / 6.3.12:
Ti spinels and substituted Ti spinels / 6.3.13:
References to 6.3.9 - 6.3.13 / 6.3.14:
Mo spinels and substituted Mo spinels / 6.3.15:
W spinels and substituted W spinels / 6.3.16:
Nb spinels and substituted Nb spinels / 6.3.17:
Zr spinels / 6.3.18:
Sb spinels and substituted Sb spinels / 6.3.19:
Sn spinels and substituted Sn spinels / 6.3.20:
Si spinels and substituted Si spinels / 6.3.21:
References to 6.3.15 - 6.3.21 / 6.3.22:
Hexagonal ferrites / 7:
Quantities and units / 7.0:
List of symbols / 7.2:
Chemical compositions and phase diagrams of hexagonal ferrites / 7.3:
Crystal structures / 7.4:
Paramagnetic properties of ferrites with hexagonal crystal structures / 7.5:
M (magnetoplumbite)-type ferrites / 7.6:
Survey of the chemical substitutions in the M structure and room temperature lattice constants / 7.6.1:
Electric and dielectric properties / 7.6.2:
Môssbauer spectra, saturation magnetization, and Curie temperature / 7.6.3:
Magneto-crystalline anisotropy / 7.6.4:
Hysteresis properties / 7.6.6:
High-frequency magnetic properties / 7.6.7:
Magnetic spectrum / 7.6.7.1:
Line width of the ferromagnetic resonance / 7.6.7.2:
W-type ferrites / 7.7:
Survey of chemical substitutions in the W structure / 7.7.1:
Saturation magnetization and Curie temperature / 7.7.2:
Magnetostriction / 7.7.4:
Y-type ferrites / 7.7.7:
Lattice parameters / 7.8.1:
Mössbauer spectra, saturation magnetization, spectroscopic splitting factor, and Curie temperature / 7.8.2:
Magneto-crystalline anisotropy derived from static measurements / 7.8.4:
Magneto-crystalline anisotropy field derived from the ferromagnetic resonance frequency / 7.8.4.2:
Magnetic spectrum of the initial permeability / 7.8.5:
Ferromagnetic resonance properties / 7.8.6.2:
Non-linear effects in the ferromagnetic resonance / 7.8.6.3:
Z-type ferrites / 7.9:
Resistivity / 7.9.1:
U-type ferrites / 7.9.3:
Calcium ferrites / 7.11:
References for 7 / 7.12:
Index of substances for III/4a and III/4b / 8:
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
50.
図書
J. A. G. Malherbe
出版情報:
Dedham, Mass. : Artech House, c1979 340 p. ; 24 cm
子書誌情報:
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Introduction
Preface
Tem Network Elements / 1:
Richards' Transform / 1.1:
Characteristic Impedance / 1.2:
Coupled Lines / 1.3:
General Network Transforms / 1.4:
An N-Line Network Model / 1.5:
References
Butterworth and Chebyschev Bandstop Filters / 2:
Prototypes and Scaling / 2.1:
Redundant Synthesis using Kuroda's Transform / 2.2:
Bandstop Elements / 2.3:
Coaxial Lines and Round Center Conductors Between Parallel Plates / 2.3.1:
MPC Stripline / 2.3.2:
Machined Stripline with Thick Center Conductors / 2.3.3:
Design Example / 2.4:
Elliptic Function Bandstop Filters / 3:
Digital Elliptic Filters / 3.1:
Prototype and Scaling / 3.1.1:
Dimensions / 3.1.2:
Construction and Bandwidth / 3.1.3:
Redundant Synthesis using the Kuroda-Levy Transform: Parallel and Series Foster Circuits / 3.1.4:
Prototypes / 3.2.1:
Foster Sections Without Unit Elements / 3.2.2:
Foster Sections with Unit Elements / 3.2.3:
Redundant Synthesis using a Noncommensurate Line Approximation / 3.2.5:
A Noncommensurate Transform / 3.3.1:
Noncommensurate Bandstop Filters / 3.3.2:
Microwave Brune Sections / 3.3.3:
Butterworth and Chebyschev Bandpass Filters / 4:
Bandpass Section Properties / 4.1:
Prototypes with Inverters / 4.2:
Shunt Shorted or Series Open Circuit Stub Filters / 4.3:
SCTL Interdigital Filter / 4.4:
Parallel-Coupled Line Filters / 4.5:
OCTL Interdigital Filters / 4.6:
Non-Redundant Interdigital / 4.7:
Combline Filters / 4.8:
Hairpin-Line Filters / 4.9:
Design Examples / 4.10:
Shunt Shorted Stub Filter / 4.10.1:
Combline Filter / 4.10.2:
Hairpin Line Filter / 4.10.4:
Elliptic Function Bandpass Filters / 5:
Digital Elliptic Construction / 5.1:
Interdigital Elliptic Construction / 5.2:
Prototypes for Narrow Bandwidths / 5.3:
Stepped Digital Elliptic Filter / 5.4:
Quarter-Wave Stepped Filter / 5.4.1:
Half-Wave Stepped Filter / 5.4.2:
Design Considerations / 5.4.4:
Narrowband Filters With Stubs / 5.5:
Commensurate Realization / 5.5.1:
Noncommensurate Form / 5.5.2:
Combline Elliptic Filters / 5.6:
Non-Redund ant Filter Synthesis / 6:
Equiripple Responses / 6.1:
Synthesis in the S-Plane / 6.2:
Transfer Functions / 6.2.1:
Synthesis Procedure / 6.2.2:
Synthesis in the Z-Plane / 6.2.3:
Calculation of Necessary Order / 6.3.1:
The Capacitively Loaded Interdigital Filter / 6.4:
Maximally Flat Responses / 6.4.1:
Multiplexers / 7:
Complementary Filters / 7.1:
Admittance Properties / 7.1.1:
Redundant (Exact) Design / 7.1.2:
Non-Redundant Synthesis / 7.1.3:
Approximate Designs / 7.1.4:
Pseudo-Complementary Filters / 7.2:
Chebyschev Response / 7.2.1:
Elliptic Function Response / 7.2.3:
Cascaded Diplexers / 7.2.4:
Direct Multiplexers / 7.3.2:
Multiplexer Example / 7.3.3:
Linear Phase Filters / 8:
Linear Phase Lowpass Prototype / 8.1:
The Periodic Phase Delay/Amplitude Transfer Function Prototype / 8.1.1:
Prototype Obtained by means of the Arbitrary Phase Polynomials / 8.1.2:
Prototype Element Value Synthesis / 8.2:
Physical Realization / 8.3:
Mapping / 8.4:
Physical Dimensions / 8.5:
Periodic Phase Delay Prototype / 8.6:
Arbitrary Phase Polynomial Prototype / 8.6.2:
Filter Analysis / Appendix A:
Collected Equations / Appendix B:
Index
Introduction
Preface
Tem Network Elements / 1:
51.
EB
Glowinski
出版情報:
SpringerLink Books - AutoHoldings , Springer Berlin Heidelberg, 1974
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52.
EB
Hejhal
出版情報:
SpringerLink Books - AutoHoldings , Springer Berlin Heidelberg, 1976
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53.
EB
W. M. Fleischman
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SpringerLink Books - AutoHoldings , Springer Berlin Heidelberg, 1970
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54.
EB
Cea
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SpringerLink Books - AutoHoldings , Springer Berlin Heidelberg, 1976
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55.
EB
Silberger
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SpringerLink Books - AutoHoldings , Springer Berlin Heidelberg, 1970
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56.
図書
Wolfgang Pies, Alarich Weiss ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
Climate definition (See Vol.4C1)
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds / Volume 4:
Introduction / 12:
Magnetic and Other Properties of Oxides and Related Compounds
General introduction / M. Hantel1.1-l1.4:
See Vol. 19A / Subvolume B:
General remarks / 6:
Climate modeling / A.R. Forrester
Alloys and compounds of 3d elements with main group elements / 1.2:
Literature covered and selection of data / W. Gräper12.1:
Nitroxide radicals
See Vol. 19B
Non-iron garnets / 1.3:
Arrangement of tables and data
3d elements and C, Si, Ge, Sn or Pb (Y. NAKAMURA) / 5.0:
Formal classification criteria
Nitroxides formed by trapping with nitrosoalkanes (See Vol.17D1) / 1.4:
Abbreviations and units used for presenting the data
Physical classification criteria / 6.3:
Nitroxides formed by trapping with nitrosoarenes, nitrosoheterocycles and nitroarenes (See Vol.17D1)
Magnetic susceptibility data / 1.5.4.2:
Indexes
Ti and V alloys and compounds / A:
Operational classification criteria
Nitroxides formed by trapping with acyclic nitrones / 1.6:
Paramagnetic susceptibility above the ordering temperature / 1.5.4.3:
List of symbols and units
Cr alloys and compounds / B:
References for 12
alpha-Phenyl N-t-butylnitrone / 1.7:
Susceptibility data at low temperatures in the vicinity of an ordering temperature / 1.5.4.4:
List of universal constants
Mn alloys and compounds / C:
alpha-Methylene-N-t-butyl nitrone / 1.8:
Summary of susceptibility parameters and transition temperatures / 1.5.4.5:
The present global surface climate
Glossary of general abbreviations
Fe alloys and compounds / 5.2:
N,N'-Di-t-butyl ethylidene dinitrone / 13.1:
Tables of nuclear quadrupole interaction parameters (See Vol.20A) / 1.5.4.5.1:
Magnetization / 6.4.4:
The earthÆs surface as part of the global climate system
Alloys and compounds with C and Si / 2.1:
Introductory remarks / 13.2:
alpha-4-(Pyridinyl-1-oxide)N-t-butyl nitrone
Crystallographic and structural data / 1.5.4.5.2:
Selected concepts in quantitative climate description
Nuclear constants of quadrupolar elements
Alloys and compounds with Ge
alpha-2- and 3-(Pyridinyl-1-oxide)N-t-butyl nitrones / 13.3:
Ratios of nuclear quadrupole moments of isotopic nuclides / 1.5.4.5.3:
Location and environment of ions in the unit cell of the garnet lattice / 6.4.6:
Quantitative respresentation of the global surface climate
Alloys and compounds with Sn / 2.4:
Values of <(a0 /r)3 > for the valence states of some neutral atoms / 13.4:
alpha-4-Pyridinyl and alpha-2,3 and 4-(N-alkylpyridinium) N-t-butyl nitrones
Oxygen coordinates, interionic spacings, and angles of compounds with garnet structure / 1.5.4.6:
Climate classification
Atomic quadrupole coupling constants of some elements
Co and Ni alloys and compounds
alpha-(2-Sulfonyloxyphenyl)N-t-butyl nitrone sodium salt / 13.5:
Sternheimer antishielding factor for atoms, free ions and ions in crystals / 1.5.4.7:
Lattice parameters and density of garnet systems / 6.4.8:
List of abbreviations used in chapter 13
MM'X ternary compounds / 2.7:
Transition frequencies between nuclear quadrupole energy levels / 13.6:
alpha-(2,4,6-Trimethoxyphenyl)N-t-butyl nitrone
Magnetic structure of DyAlG and ErGaG / 1.5.4.8:
References for 13
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
References for 1.5.4 / 5.4:
alpha-(2,6-Di-t-butyl-4-hydroxyphenyl)N-t-butyl nitrone / 14:
Specific Surfaces Climates (See Vol.4C1) / 1.5.5:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Results of magnetic resonance experiments / 6.4.10:
Heusler alloys (P.J. WEBSTER, K.R.A. ZIEBECK) / 15:
Climate variations (See Vol.4C1)
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
alpha-(p-Dodecyloxyphenyl)N-t-butyl nitrone
Paramagnetic resonance of rare earth impurities in diamagnetic garnets / 1.5.5.1:
The Planetary Boundary Layer (PBL) (See Vol.4C1)
Crystallographic structure
Nuclear quadrupole resonance data
Other alpha-aryl N-t-butyl nitrones
Paramagnetic resonance of impurities with d electrons in diamagnetic garnets / 1.5.5.1.1:
Chemical order
alpha-Phenyl N-(1,3-dioxanyl)nitrone
Paramagnetic resonance of impurities in paramagnetic garnets / 1.5.5.1.1.1:
General model
Resonance data tables
alpha(4-(N-Methylpyridinium))N-t-butyl nitrone
Deuterium - Chlorine (See Vol.20A) / 1.5.5.1.1.2:
Nuclear magnetic resonance experiments / 6.4.14:
Chlorine (continued) - Rubidium (See Vol.20B)
A statistical model / 5.5:
Other alpha-aryl nitrones / 50:
Results from optical spectra / 1.5.5.1.1.3:
Zirconium, Niobium, Molybdenum, Technetium
Preferential disorder
Other N-t-butyl nitrones / 51:
Crystal field analysis and parameters / 1.5.5.1.2:
Indium
Magnetic order
N-Cyanoisopropyl nitrones / 52:
Summary of references for some results from optical measurements / 1.5.5.1.2.1:
Antimony
Ferromagnetic order / 5.6:
alpha-Methylene and alpha-ethylene N-duryl nitrones / 53:
Spin-lattice relaxation of paramagnetic ions in garnets / 1.5.5.1.2.2:
- 55 Iodine
Antiferromagnetic order
Nitrones derived from sugars / 56:
Cesium / 1.5.5.2:
Bulk magnetic properties
Nitroxides formed by trapping with cyclic nitrones / 57:
Barium / 1.5.5.2.1:
5,5-Dimethyl-1-pyrroline N-oxide / 58:
The dependence of the spin-lattice relaxation time on magnetic field
Lanthanides / 1.5.5.2.2:
Ferromagnets X2 MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2 MnZ with X = 3d element
5-Heptyl-3,3,5-trimethyl-1-pyrroline N-oxide / 60:
Specific heat of rare earth gallium garnets
Rhenium / 1.5.5.2.2.2:
X2 MnZ with X = 4d element
5-Hexadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 61:
Specific heat of two rare earth aluminium garnets
Gold / 1.5.5.2.3:
Antiferromagnets X2 MnZ
5-Octadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 62:
Faraday rotation in paramagnetic non-iron garnets
Mercury / 1.5.5.2.3.1:
4,5,5-Trimethyl-1-pyrroline N-oxide / 63:
Magnetomechanical properties
Bismuth / 1.5.5.2.3.2:
3,5,5-Trimethyl-1-pyrroline N-oxide / 4:
Magnetostriction of rare earth gallates and germanates with a garnet structure
Diagrams of NQR frequencies and related properties / 1.5.5.2.3.3:
X2 MnZ with X = 5d element
2,5,5-Trimethyl-1-pyrroline N-oxide / 4.1:
Macroscopic magnetoelastic tensors for paramagnetic rare earth ions in diamagnetic garnet hosts
Ferromagnets X2 YZ for Y other than Mn / 1.5.5.2.4:
Other 5,5-dialkyl-1-pyrroline N-oxides / 4.2:
Magnetoacoustic properties
Diagrams / 1.5.5.2.4.1:
Co2 YZ with Y = 4A, 5A element
2,2,5,5-Tetramethyl-3-imidazoline N-oxides / 4.3:
Neutron diffraction results near and below the magnetic ordering point
References for chapter 4 / 1.5.5.2.4.2:
Co2 YZ with Y = 6A, 7A element
4-Methoxycarbonyl-3,3,5,5-tetra-alkyl-1-pyrroline N-oxide
References
Structure formulas / 1.5.5.2.4.3:
Fe2 YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2 FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Index of gross molecular formulas / 1.5.5.2.4.5:
Mn2 VZ
Cyclic dialkyl nitroxides
Spinels
Index of substance names / 1.5.5.2.5:
Arrangement
Paramagnets X2 YZ with X, Y = 3d element
Aziridinyl 1-oxyls
Index of CAS registry numbers / B.A. Calhoun6.0:
Quaternary alloys
Azetidinyl 1-oxyls
Errata / 1.5.5.2.6.1:
Corrections (See Vol.31B) / 6.7.3:
(XX*)2 MnSn with X, X* 3d elements / 6.0.1:
Pyrrolidinyl-1-oxyls
Ni2 (YY*)Sn with Y, Y* = 3d elements / 1.5.5.2.6.2:
Pyrrolinyl-1-oxyls
Structure / 1.5.5.2.6.3:
(XX*)2 TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2 MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2 MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2 Mn (ZZ*) / 6.1.0.1:
Isoindolinyl-oxyls
A-B exchange interaction; magnetization / 1.5.5.2.7:
Clb Intermetallic compounds XYZ / 6.1.0.2:
Oxaindolinyl-oxyls
A-A, B-B exchange interaction; magnetic order / 1.5.5.2.7.1:
Ferromagnets XMnZ with X = 3d element / 6.1.0.3:
Piperidinyl-1-oxyls
Hyperfine interactions (Môssbauer and NMR methods) / 1.5.5.2.7.2:
Ferromagnets XMnZ with X = 4d, 5d element / 6.1.0.4:
Tetrahydropyridinyl-1-oxyls
Anisotropy / 1.5.5.2.7.3:
Ferromagnets - paramagnets XYSb for Y other than Mn / 6.1.0.5:
Diaza- and triaza-cyclohexyl- and -cyclohexenyl-1-oxyls
Ferrimagnetic resonance / 1.5.5.2.7.4:
Antiferromagnets XMnZ with X = 3d, 4d, 5d element / 6.1.0.6:
Oxazinyl-1-oxyls
Accuracy / 1.5.5.2.7.5:
Quaternary alloys (XX*)MnSb with X, X* = 3d, 4d, 5d elements / 6.1.0.7:
1,4 Azaphosphacyclohexyl-1-oxyls
References for 6.0 and 6.1.0 / 1.5.5.2.7.6:
X2-x MnSb with X = 3d, 4d element / 6.1.1:
Azepinyl-1-oxyls and macrocyclic N-oxyls
Neutron diffraction and magnetic order / 1.5.5.3:
Bicyclic nitroxides
Alkyl, aryl and vinyl nitroxides / R.A. Lefever1.5.5.3.1:
Neutron diffraction theory / 1.5.5.3.2:
Aryl, diaryl and divinylnitroxides
Tables and figures / 1.5.5.3.3:
Magnetic and chemical ordering data / 6.1.1.2:
Alkyl imidoyl and nitronyl nitroxides
References for 6.1.1.1 / 1.5.5.3.3.1:
Co2 MnZ / 6.1.2:
Acyl nitroxides
Ni2 MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2 MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2 MnZ / 1.5.5.3.3.4:
Thio and sulfonyl nitroxides
Clb compounds XYZ / 1.5.5.3.3.5:
Phospho nitroxides
Polarized neutron measurements on single crystals / 1.5.5.3.4:
Other nitroxides
References for 6.4 - 6.16 / 1.5.5.3.4.1:
X2 MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3 Z / 6.1.2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H) / 1.5.5.3.4.3:
Ni ferrite with Co substitutions
Fe3-x Mnx Si / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2 YZ with Y = 3d element / 6.1.2.5:
Ge substituted Ni ferrite / 1.5.5.4:
Dynamics / 6.1.2.6:
Ni ferrite chromite / 1.5.5.4.1:
Lattice dynamics / 6.1.2.7:
Ni ferrite vanadate / 1.5.5.4.2:
Phase transitions / 6.1.2.8:
Ni ferrite aluminate / 1.5.5.4.3:
Spin dynamics / 6.1.2.9:
Ni gallate ferrite / 1.5.5.5:
Electrical properties / 6.1.2.10:
References for 6.1.2.0 - 6.1.2.9 / 1.5.5.5.1:
Electrical resistivity / 6.1.3:
Magnetoresistance / 1.5.5.5.2:
Hall effect / R. Vautier ; M. Paulus1.5.5.5.3:
Thermoelectric power / 1.5.5.5.4:
Thermal properties / 1.5.5.6:
Phase equilibria and structure / 1.5.5.6.1:
Specific heat / 6.1.3.1.1:
Phase equilibria / 1.5.5.6.1.1:
Cu2 MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-x Alx / 6.1.3.1.4:
Ionic distribution / 1.5.5.6.2:
Superconductivity / 6.1.3.1.5:
Spin arrangement / 1.5.5.7:
Hyperfine fields / 6.1.3.2:
Mössbauer spectra of Sn-doped alloys (119 Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2 Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2 MnSb, XMnSb with X = 8A element / 6.1.3.2.4:
Diffusion and oxidation coefficients / 1.5.5.7.3:
Mössbauer spectra of Sb-based alloys (121 Sb), X2 MnSb, XMnSb with X = 1B, 8A element / 6.1.3.2.5:
Ferrite thermodynamics / 1.5.5.7.4:
Mössbauer <$$$> element / 6.1.3.2.6:
Solid crystal growth / 1.5.5.7.5:
D03 , compounds Fe3 Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03 -L21 compounds Fe3-x Yx Si with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5 V0.5-x Alx / 6.1.3.4:
References for 1.5.5 / 1.5.5.8:
Metallic perovskites (PH. L'HÉRITIER, D. FRUCHART, R. MADAR, R. FRUCHART) / 1.5.6:
Magnetoresistance and thermomagnetic effect / 1.5.6.1:
Crystallographic properties of Mc XMf 3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of Mc XMf 3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
Mc XTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
Mc XCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
Mc XM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
Mc XFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
Mc XCo3 / 6.1.3.6:
Magnetocrystalline anisotropy / 1.5.6.3.6:
Mc XNi3 / 6.1.3.6.1:
Magnetocrystalline anisotropy in Mn ferrite / 1.5.6.4:
References for 1.5.6 / 6.1.3.6.2:
Magnetocrystalline anisotropy in Mn ferrite with substitutions
Alloys and compounds of 4d or 5d elements with main group elements (S. MISAWA, K. KANEMATSU) / 6.1.3.6.3:
Linear magnetostriction / 1.6.1:
Magnetic annealing / 6.1.3.6.4:
Alloys and compounds of Zr / 6.1.3.7:
Domains and domain walls / 1.6.2.1:
ZrHx / 6.1.3.7.1:
Domain wall motion experiments / 1.6.2.2:
ZrCuAl / 6.1.3.7.2:
Domain structure / 1.6.2.3:
ZrZn2 / 6.1.3.8:
Response of magnetization to a field / 1.6.2.4:
Other compounds of Zr / 6.1.3.8.1:
High temperature susceptibility / 1.6.3:
Alloys and compounds of Nb / 6.1.3.8.2:
High field susceptibility in the ferrimagnetic state / 1.6.3.1:
Nb4 hydride / 6.1.3.8.3:
Permeability variation with composition, impurities, irradiation, and grain size / 1.6.3.2:
A15 and sigma-phase alloys of Nb / 6.1.3.8.4:
Permeability vs. temperature / 1.6.3.3:
Nb carbides / 6.1.3.8.5:
Permeability vs. pressure / 1.6.3.4:
Nb nitride / 6.1.3.8.6:
Permeability vs. frequency / 1.6.3.5:
Nb chalcogenides / 6.1.3.8.7:
After-effect, disaccommodation, and viscosity / 1.6.4:
Alloys and compounds of Mo / 6.1.3.9:
Microwave properties / 1.6.4.1:
Mo borides / 6.1.3.9.1:
Resonance line width / 1.6.4.2:
MoAlGe / 6.1.3.9.2:
Spectroscopic splitting factor / 1.6.4.3:
Mo carbides / 6.1.3.10:
Optical properties (absorption) / 1.6.4.4:
Mo chalcogenides / 6.1.3.11:
References for 6.1.3.0 - 6.1.3.10 / 1.6.5:
Compounds of Ru / 6.1.4:
Alloys of Rh / 1.6.6:
Alloys and compounds of Pd / C.J. Kriessman ; A.P. Greifer1.6.7:
Pd hydrides / 1.6.7.1:
Pd-Li and Pd-Na compounds / 1.6.7.2:
fcc alloys of Pd / 1.6.7.3:
MgMn ferrites and MgMn ferrites with substitutions / 1.6.7.4:
Other compounds of Pd / 6.1.4.2.0:
Alloys and compounds of Hf / 1.6.8:
Crystallographic properties, physical properties, phase data, magnetic moments / 1.6.8.1:
Hf hydrides / 6.1.4.2.2:
HfZn2 / 1.6.8.2:
Losses / 1.6.8.3:
Hf carbides / 6.1.4.2.4:
Square-loop properties / 1.6.8.4:
Hf chalcogenides / 6.1.4.2.5:
Alloys and compounds of Ta / 1.6.9:
Other ferrite systems containing Mg / 1.6.9.1:
Ta hydrides / 6.1.4.3.0:
Ta carbides / 1.6.9.2:
Ta chalcogenides / 1.6.9.3:
Alloys and compounds of W / 1.6.10:
W borides / 1.6.10.1:
WP / 6.1.4.3.3:
W chalcogenides / 1.6.10.3:
Alloys and compounds of Re / 1.6.11:
Compounds of Os / 1.6.12:
Alloys and compounds of Pt / 1.6.13:
Pt-Li and Pt-Na compounds / 6.1.4.3.6:
fcc alloys of Pt / 1.6.13.2:
Other systems containing trivalent and higher valency cations / 6.1.4.3.7:
Other compounds of Pt
References for 1.6 / 6.1.4.3.8:
References for 6.1.4.1 - 6.1.4.3 / 6.1.4.4:
Zn, Zn-Fe, Zn-Ti, Zn-Li, Zn-Ti-Li, Zn-Cd, Zn-Mg, Zn-Co, and Zn-Cu ferrites / V.J. Folen6.1.5:
Zn-Ni, Zn-Ni-Ge, and Zn-Ni-Sb ferrites / 6.1.5.2:
References for 6.1.5.1 and 6.1.5.2 / 6.1.5.3:
Li ferrite / 6.1.6:
Li-Cr ferrites / 6.1.6.2:
Li-Zn, Li-Zn-Co, Li-Ti, Li-Zn-Ti, and Li-Zn-Ti-Al-Mn ferrites / 6.1.6.3:
Li-A1, Li-Ga, Li-Cd ferrites and Li-Fe ferrites / 6.1.6.4:
Li-Mn, Li-V, and Li-Ge ferrites / 6.1.6.5:
References for 6.1.6.1 - 6.1.6.5 / 6.1.6.6:
Cu-Zn and Cu-Cd ferrites / 6.1.7:
Cu-Cr ferrites / 6.1.7.3:
Cu-Mg ferrites / 6.1.7.4:
Other ferrites, oxide compounds, and oxide mixtures containing Cu / 6.1.7.5:
References for 6.1.7.1 - 6.1.7.5 / 6.1.7.6:
Co ferrite / 6.1.8:
Co ferrite and Co-Fe mixed oxides / 6.1.8.2:
Co-Zn ferrites / 6.1.8.3:
Co-Cd, Co-Mg, Co-Ni, and Co-Cr ferrites / 6.1.8.4:
References for 6.1.8.1 - 6.1.8.4 / 6.1.8.5:
Cr spinels
Cr oxide-spinels / D. Bonnenberg ; H.P.J. Wijn6.2.1:
Binary Cr oxide-spinels / 6.2.1.1:
Ternary and quarternary Cr oxide-spinels / 6.2.1.2:
References to 6.2.1.1 and 6.2.1.2 / 6.2.1.3:
Cr sulfide, selenide and telluride spinels / G.H. Stauss6.2.2:
Comparison of the crystallographic, electrical, and magnetic properties of Cr spinels containing S, Se and Te / 6.2.2.1:
Cd-Cr selenide spinel / 6.2.2.2:
Cd-Cr selenide spinel with substitutions / 6.2.2.4:
Cd-Cr sulfide spinel and substituted compounds / 6.2.2.5:
Hg-Cr selenide, Hg-Cr sulfide spinels and their substituted compounds / 6.2.2.6:
Cu-Cr S, Se and Te spinels / 6.2.2.7:
Cu-Cr S, Se and Te spinels with substitutions / 6.2.2.8:
Fe-Mn-, Co- and Zn-Cr S and Se spinels and their substituted compounds / 6.2.2.9:
References for 6.2.2.1 - 6.2.2.9 / 6.2.2.10:
Further spinels
V spinels and substituted V spinels / 6.3.1:
Ge spinels and substituted Ge spinels / 6.3.1.1:
Rh spinels and substituted Rh spinels / 6.3.3:
References to 6.3.1 - 6.3.3 / 6.3.4:
Al spinels and substituted Al spinels / 6.3.5:
Ga spinels and substituted Ga spinels / 6.3.6:
In spinels and substituted In spinels / 6.3.7:
References to 6.3.5 - 6.3.7 / 6.3.8:
Co spinels and substituted Co spinels / 6.3.9:
Ni spinels and substituted Ni spinels / 6.3.10:
Te spinels and substituted Te spinels / 6.3.11:
Mn spinels and substituted Mn spinels / 6.3.12:
Ti spinels and substituted Ti spinels / 6.3.13:
References to 6.3.9 - 6.3.13 / 6.3.14:
Mo spinels and substituted Mo spinels / 6.3.15:
W spinels and substituted W spinels / 6.3.16:
Nb spinels and substituted Nb spinels / 6.3.17:
Zr spinels / 6.3.18:
Sb spinels and substituted Sb spinels / 6.3.19:
Sn spinels and substituted Sn spinels / 6.3.20:
Si spinels and substituted Si spinels / 6.3.21:
References to 6.3.15 - 6.3.21 / 6.3.22:
Hexagonal ferrites / 7:
Quantities and units / 7.0:
List of symbols / 7.2:
Chemical compositions and phase diagrams of hexagonal ferrites / 7.3:
Crystal structures / 7.4:
Paramagnetic properties of ferrites with hexagonal crystal structures / 7.5:
M (magnetoplumbite)-type ferrites / 7.6:
Survey of the chemical substitutions in the M structure and room temperature lattice constants / 7.6.1:
Electric and dielectric properties / 7.6.2:
Môssbauer spectra, saturation magnetization, and Curie temperature / 7.6.3:
Magneto-crystalline anisotropy / 7.6.4:
Hysteresis properties / 7.6.6:
High-frequency magnetic properties / 7.6.7:
Magnetic spectrum / 7.6.7.1:
Line width of the ferromagnetic resonance / 7.6.7.2:
W-type ferrites / 7.7:
Survey of chemical substitutions in the W structure / 7.7.1:
Saturation magnetization and Curie temperature / 7.7.2:
Magnetostriction / 7.7.4:
Y-type ferrites / 7.7.7:
Lattice parameters / 7.8.1:
Mössbauer spectra, saturation magnetization, spectroscopic splitting factor, and Curie temperature / 7.8.2:
Magneto-crystalline anisotropy derived from static measurements / 7.8.4:
Magneto-crystalline anisotropy field derived from the ferromagnetic resonance frequency / 7.8.4.2:
Magnetic spectrum of the initial permeability / 7.8.5:
Ferromagnetic resonance properties / 7.8.6.2:
Non-linear effects in the ferromagnetic resonance / 7.8.6.3:
Z-type ferrites / 7.9:
Resistivity / 7.9.1:
U-type ferrites / 7.9.3:
Calcium ferrites / 7.11:
References for 7 / 7.12:
Index of substances for III/4a and III/4b / 8:
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
57.
図書
J.B. Goodenough ... [et al.] ; Herausgeber, K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
Climate definition (See Vol.4C1)
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds / Volume 4:
Introduction / 12:
Magnetic and Other Properties of Oxides and Related Compounds
General introduction / M. Hantel1.1-l1.4:
See Vol. 19A / Subvolume B:
General remarks / 6:
Climate modeling / A.R. Forrester
Alloys and compounds of 3d elements with main group elements / 1.2:
Literature covered and selection of data / W. Gräper12.1:
Nitroxide radicals
See Vol. 19B
Non-iron garnets / 1.3:
Arrangement of tables and data
3d elements and C, Si, Ge, Sn or Pb (Y. NAKAMURA) / 5.0:
Formal classification criteria
Nitroxides formed by trapping with nitrosoalkanes (See Vol.17D1) / 1.4:
Abbreviations and units used for presenting the data
Physical classification criteria / 6.3:
Nitroxides formed by trapping with nitrosoarenes, nitrosoheterocycles and nitroarenes (See Vol.17D1)
Magnetic susceptibility data / 1.5.4.2:
Indexes
Ti and V alloys and compounds / A:
Operational classification criteria
Nitroxides formed by trapping with acyclic nitrones / 1.6:
Paramagnetic susceptibility above the ordering temperature / 1.5.4.3:
List of symbols and units
Cr alloys and compounds / B:
References for 12
alpha-Phenyl N-t-butylnitrone / 1.7:
Susceptibility data at low temperatures in the vicinity of an ordering temperature / 1.5.4.4:
List of universal constants
Mn alloys and compounds / C:
alpha-Methylene-N-t-butyl nitrone / 1.8:
Summary of susceptibility parameters and transition temperatures / 1.5.4.5:
The present global surface climate
Glossary of general abbreviations
Fe alloys and compounds / 5.2:
N,N'-Di-t-butyl ethylidene dinitrone / 13.1:
Tables of nuclear quadrupole interaction parameters (See Vol.20A) / 1.5.4.5.1:
Magnetization / 6.4.4:
The earthÆs surface as part of the global climate system
Alloys and compounds with C and Si / 2.1:
Introductory remarks / 13.2:
alpha-4-(Pyridinyl-1-oxide)N-t-butyl nitrone
Crystallographic and structural data / 1.5.4.5.2:
Selected concepts in quantitative climate description
Nuclear constants of quadrupolar elements
Alloys and compounds with Ge
alpha-2- and 3-(Pyridinyl-1-oxide)N-t-butyl nitrones / 13.3:
Ratios of nuclear quadrupole moments of isotopic nuclides / 1.5.4.5.3:
Location and environment of ions in the unit cell of the garnet lattice / 6.4.6:
Quantitative respresentation of the global surface climate
Alloys and compounds with Sn / 2.4:
Values of <(a0 /r)3 > for the valence states of some neutral atoms / 13.4:
alpha-4-Pyridinyl and alpha-2,3 and 4-(N-alkylpyridinium) N-t-butyl nitrones
Oxygen coordinates, interionic spacings, and angles of compounds with garnet structure / 1.5.4.6:
Climate classification
Atomic quadrupole coupling constants of some elements
Co and Ni alloys and compounds
alpha-(2-Sulfonyloxyphenyl)N-t-butyl nitrone sodium salt / 13.5:
Sternheimer antishielding factor for atoms, free ions and ions in crystals / 1.5.4.7:
Lattice parameters and density of garnet systems / 6.4.8:
List of abbreviations used in chapter 13
MM'X ternary compounds / 2.7:
Transition frequencies between nuclear quadrupole energy levels / 13.6:
alpha-(2,4,6-Trimethoxyphenyl)N-t-butyl nitrone
Magnetic structure of DyAlG and ErGaG / 1.5.4.8:
References for 13
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
References for 1.5.4 / 5.4:
alpha-(2,6-Di-t-butyl-4-hydroxyphenyl)N-t-butyl nitrone / 14:
Specific Surfaces Climates (See Vol.4C1) / 1.5.5:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Results of magnetic resonance experiments / 6.4.10:
Heusler alloys (P.J. WEBSTER, K.R.A. ZIEBECK) / 15:
Climate variations (See Vol.4C1)
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
alpha-(p-Dodecyloxyphenyl)N-t-butyl nitrone
Paramagnetic resonance of rare earth impurities in diamagnetic garnets / 1.5.5.1:
The Planetary Boundary Layer (PBL) (See Vol.4C1)
Crystallographic structure
Nuclear quadrupole resonance data
Other alpha-aryl N-t-butyl nitrones
Paramagnetic resonance of impurities with d electrons in diamagnetic garnets / 1.5.5.1.1:
Chemical order
alpha-Phenyl N-(1,3-dioxanyl)nitrone
Paramagnetic resonance of impurities in paramagnetic garnets / 1.5.5.1.1.1:
General model
Resonance data tables
alpha(4-(N-Methylpyridinium))N-t-butyl nitrone
Deuterium - Chlorine (See Vol.20A) / 1.5.5.1.1.2:
Nuclear magnetic resonance experiments / 6.4.14:
Chlorine (continued) - Rubidium (See Vol.20B)
A statistical model / 5.5:
Other alpha-aryl nitrones / 50:
Results from optical spectra / 1.5.5.1.1.3:
Zirconium, Niobium, Molybdenum, Technetium
Preferential disorder
Other N-t-butyl nitrones / 51:
Crystal field analysis and parameters / 1.5.5.1.2:
Indium
Magnetic order
N-Cyanoisopropyl nitrones / 52:
Summary of references for some results from optical measurements / 1.5.5.1.2.1:
Antimony
Ferromagnetic order / 5.6:
alpha-Methylene and alpha-ethylene N-duryl nitrones / 53:
Spin-lattice relaxation of paramagnetic ions in garnets / 1.5.5.1.2.2:
- 55 Iodine
Antiferromagnetic order
Nitrones derived from sugars / 56:
Cesium / 1.5.5.2:
Bulk magnetic properties
Nitroxides formed by trapping with cyclic nitrones / 57:
Barium / 1.5.5.2.1:
5,5-Dimethyl-1-pyrroline N-oxide / 58:
The dependence of the spin-lattice relaxation time on magnetic field
Lanthanides / 1.5.5.2.2:
Ferromagnets X2 MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2 MnZ with X = 3d element
5-Heptyl-3,3,5-trimethyl-1-pyrroline N-oxide / 60:
Specific heat of rare earth gallium garnets
Rhenium / 1.5.5.2.2.2:
X2 MnZ with X = 4d element
5-Hexadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 61:
Specific heat of two rare earth aluminium garnets
Gold / 1.5.5.2.3:
Antiferromagnets X2 MnZ
5-Octadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 62:
Faraday rotation in paramagnetic non-iron garnets
Mercury / 1.5.5.2.3.1:
4,5,5-Trimethyl-1-pyrroline N-oxide / 63:
Magnetomechanical properties
Bismuth / 1.5.5.2.3.2:
3,5,5-Trimethyl-1-pyrroline N-oxide / 4:
Magnetostriction of rare earth gallates and germanates with a garnet structure
Diagrams of NQR frequencies and related properties / 1.5.5.2.3.3:
X2 MnZ with X = 5d element
2,5,5-Trimethyl-1-pyrroline N-oxide / 4.1:
Macroscopic magnetoelastic tensors for paramagnetic rare earth ions in diamagnetic garnet hosts
Ferromagnets X2 YZ for Y other than Mn / 1.5.5.2.4:
Other 5,5-dialkyl-1-pyrroline N-oxides / 4.2:
Magnetoacoustic properties
Diagrams / 1.5.5.2.4.1:
Co2 YZ with Y = 4A, 5A element
2,2,5,5-Tetramethyl-3-imidazoline N-oxides / 4.3:
Neutron diffraction results near and below the magnetic ordering point
References for chapter 4 / 1.5.5.2.4.2:
Co2 YZ with Y = 6A, 7A element
4-Methoxycarbonyl-3,3,5,5-tetra-alkyl-1-pyrroline N-oxide
References
Structure formulas / 1.5.5.2.4.3:
Fe2 YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2 FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Index of gross molecular formulas / 1.5.5.2.4.5:
Mn2 VZ
Cyclic dialkyl nitroxides
Spinels
Index of substance names / 1.5.5.2.5:
Arrangement
Paramagnets X2 YZ with X, Y = 3d element
Aziridinyl 1-oxyls
Index of CAS registry numbers / B.A. Calhoun6.0:
Quaternary alloys
Azetidinyl 1-oxyls
Errata / 1.5.5.2.6.1:
Corrections (See Vol.31B) / 6.7.3:
(XX*)2 MnSn with X, X* 3d elements / 6.0.1:
Pyrrolidinyl-1-oxyls
Ni2 (YY*)Sn with Y, Y* = 3d elements / 1.5.5.2.6.2:
Pyrrolinyl-1-oxyls
Structure / 1.5.5.2.6.3:
(XX*)2 TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2 MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2 MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2 Mn (ZZ*) / 6.1.0.1:
Isoindolinyl-oxyls
A-B exchange interaction; magnetization / 1.5.5.2.7:
Clb Intermetallic compounds XYZ / 6.1.0.2:
Oxaindolinyl-oxyls
A-A, B-B exchange interaction; magnetic order / 1.5.5.2.7.1:
Ferromagnets XMnZ with X = 3d element / 6.1.0.3:
Piperidinyl-1-oxyls
Hyperfine interactions (Môssbauer and NMR methods) / 1.5.5.2.7.2:
Ferromagnets XMnZ with X = 4d, 5d element / 6.1.0.4:
Tetrahydropyridinyl-1-oxyls
Anisotropy / 1.5.5.2.7.3:
Ferromagnets - paramagnets XYSb for Y other than Mn / 6.1.0.5:
Diaza- and triaza-cyclohexyl- and -cyclohexenyl-1-oxyls
Ferrimagnetic resonance / 1.5.5.2.7.4:
Antiferromagnets XMnZ with X = 3d, 4d, 5d element / 6.1.0.6:
Oxazinyl-1-oxyls
Accuracy / 1.5.5.2.7.5:
Quaternary alloys (XX*)MnSb with X, X* = 3d, 4d, 5d elements / 6.1.0.7:
1,4 Azaphosphacyclohexyl-1-oxyls
References for 6.0 and 6.1.0 / 1.5.5.2.7.6:
X2-x MnSb with X = 3d, 4d element / 6.1.1:
Azepinyl-1-oxyls and macrocyclic N-oxyls
Neutron diffraction and magnetic order / 1.5.5.3:
Bicyclic nitroxides
Alkyl, aryl and vinyl nitroxides / R.A. Lefever1.5.5.3.1:
Neutron diffraction theory / 1.5.5.3.2:
Aryl, diaryl and divinylnitroxides
Tables and figures / 1.5.5.3.3:
Magnetic and chemical ordering data / 6.1.1.2:
Alkyl imidoyl and nitronyl nitroxides
References for 6.1.1.1 / 1.5.5.3.3.1:
Co2 MnZ / 6.1.2:
Acyl nitroxides
Ni2 MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2 MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2 MnZ / 1.5.5.3.3.4:
Thio and sulfonyl nitroxides
Clb compounds XYZ / 1.5.5.3.3.5:
Phospho nitroxides
Polarized neutron measurements on single crystals / 1.5.5.3.4:
Other nitroxides
References for 6.4 - 6.16 / 1.5.5.3.4.1:
X2 MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3 Z / 6.1.2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H) / 1.5.5.3.4.3:
Ni ferrite with Co substitutions
Fe3-x Mnx Si / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2 YZ with Y = 3d element / 6.1.2.5:
Ge substituted Ni ferrite / 1.5.5.4:
Dynamics / 6.1.2.6:
Ni ferrite chromite / 1.5.5.4.1:
Lattice dynamics / 6.1.2.7:
Ni ferrite vanadate / 1.5.5.4.2:
Phase transitions / 6.1.2.8:
Ni ferrite aluminate / 1.5.5.4.3:
Spin dynamics / 6.1.2.9:
Ni gallate ferrite / 1.5.5.5:
Electrical properties / 6.1.2.10:
References for 6.1.2.0 - 6.1.2.9 / 1.5.5.5.1:
Electrical resistivity / 6.1.3:
Magnetoresistance / 1.5.5.5.2:
Hall effect / R. Vautier ; M. Paulus1.5.5.5.3:
Thermoelectric power / 1.5.5.5.4:
Thermal properties / 1.5.5.6:
Phase equilibria and structure / 1.5.5.6.1:
Specific heat / 6.1.3.1.1:
Phase equilibria / 1.5.5.6.1.1:
Cu2 MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-x Alx / 6.1.3.1.4:
Ionic distribution / 1.5.5.6.2:
Superconductivity / 6.1.3.1.5:
Spin arrangement / 1.5.5.7:
Hyperfine fields / 6.1.3.2:
Mössbauer spectra of Sn-doped alloys (119 Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2 Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2 MnSb, XMnSb with X = 8A element / 6.1.3.2.4:
Diffusion and oxidation coefficients / 1.5.5.7.3:
Mössbauer spectra of Sb-based alloys (121 Sb), X2 MnSb, XMnSb with X = 1B, 8A element / 6.1.3.2.5:
Ferrite thermodynamics / 1.5.5.7.4:
Mössbauer <$$$> element / 6.1.3.2.6:
Solid crystal growth / 1.5.5.7.5:
D03 , compounds Fe3 Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03 -L21 compounds Fe3-x Yx Si with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5 V0.5-x Alx / 6.1.3.4:
References for 1.5.5 / 1.5.5.8:
Metallic perovskites (PH. L'HÉRITIER, D. FRUCHART, R. MADAR, R. FRUCHART) / 1.5.6:
Magnetoresistance and thermomagnetic effect / 1.5.6.1:
Crystallographic properties of Mc XMf 3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of Mc XMf 3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
Mc XTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
Mc XCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
Mc XM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
Mc XFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
Mc XCo3 / 6.1.3.6:
Magnetocrystalline anisotropy / 1.5.6.3.6:
Mc XNi3 / 6.1.3.6.1:
Magnetocrystalline anisotropy in Mn ferrite / 1.5.6.4:
References for 1.5.6 / 6.1.3.6.2:
Magnetocrystalline anisotropy in Mn ferrite with substitutions
Alloys and compounds of 4d or 5d elements with main group elements (S. MISAWA, K. KANEMATSU) / 6.1.3.6.3:
Linear magnetostriction / 1.6.1:
Magnetic annealing / 6.1.3.6.4:
Alloys and compounds of Zr / 6.1.3.7:
Domains and domain walls / 1.6.2.1:
ZrHx / 6.1.3.7.1:
Domain wall motion experiments / 1.6.2.2:
ZrCuAl / 6.1.3.7.2:
Domain structure / 1.6.2.3:
ZrZn2 / 6.1.3.8:
Response of magnetization to a field / 1.6.2.4:
Other compounds of Zr / 6.1.3.8.1:
High temperature susceptibility / 1.6.3:
Alloys and compounds of Nb / 6.1.3.8.2:
High field susceptibility in the ferrimagnetic state / 1.6.3.1:
Nb4 hydride / 6.1.3.8.3:
Permeability variation with composition, impurities, irradiation, and grain size / 1.6.3.2:
A15 and sigma-phase alloys of Nb / 6.1.3.8.4:
Permeability vs. temperature / 1.6.3.3:
Nb carbides / 6.1.3.8.5:
Permeability vs. pressure / 1.6.3.4:
Nb nitride / 6.1.3.8.6:
Permeability vs. frequency / 1.6.3.5:
Nb chalcogenides / 6.1.3.8.7:
After-effect, disaccommodation, and viscosity / 1.6.4:
Alloys and compounds of Mo / 6.1.3.9:
Microwave properties / 1.6.4.1:
Mo borides / 6.1.3.9.1:
Resonance line width / 1.6.4.2:
MoAlGe / 6.1.3.9.2:
Spectroscopic splitting factor / 1.6.4.3:
Mo carbides / 6.1.3.10:
Optical properties (absorption) / 1.6.4.4:
Mo chalcogenides / 6.1.3.11:
References for 6.1.3.0 - 6.1.3.10 / 1.6.5:
Compounds of Ru / 6.1.4:
Alloys of Rh / 1.6.6:
Alloys and compounds of Pd / C.J. Kriessman ; A.P. Greifer1.6.7:
Pd hydrides / 1.6.7.1:
Pd-Li and Pd-Na compounds / 1.6.7.2:
fcc alloys of Pd / 1.6.7.3:
MgMn ferrites and MgMn ferrites with substitutions / 1.6.7.4:
Other compounds of Pd / 6.1.4.2.0:
Alloys and compounds of Hf / 1.6.8:
Crystallographic properties, physical properties, phase data, magnetic moments / 1.6.8.1:
Hf hydrides / 6.1.4.2.2:
HfZn2 / 1.6.8.2:
Losses / 1.6.8.3:
Hf carbides / 6.1.4.2.4:
Square-loop properties / 1.6.8.4:
Hf chalcogenides / 6.1.4.2.5:
Alloys and compounds of Ta / 1.6.9:
Other ferrite systems containing Mg / 1.6.9.1:
Ta hydrides / 6.1.4.3.0:
Ta carbides / 1.6.9.2:
Ta chalcogenides / 1.6.9.3:
Alloys and compounds of W / 1.6.10:
W borides / 1.6.10.1:
WP / 6.1.4.3.3:
W chalcogenides / 1.6.10.3:
Alloys and compounds of Re / 1.6.11:
Compounds of Os / 1.6.12:
Alloys and compounds of Pt / 1.6.13:
Pt-Li and Pt-Na compounds / 6.1.4.3.6:
fcc alloys of Pt / 1.6.13.2:
Other systems containing trivalent and higher valency cations / 6.1.4.3.7:
Other compounds of Pt
References for 1.6 / 6.1.4.3.8:
References for 6.1.4.1 - 6.1.4.3 / 6.1.4.4:
Zn, Zn-Fe, Zn-Ti, Zn-Li, Zn-Ti-Li, Zn-Cd, Zn-Mg, Zn-Co, and Zn-Cu ferrites / V.J. Folen6.1.5:
Zn-Ni, Zn-Ni-Ge, and Zn-Ni-Sb ferrites / 6.1.5.2:
References for 6.1.5.1 and 6.1.5.2 / 6.1.5.3:
Li ferrite / 6.1.6:
Li-Cr ferrites / 6.1.6.2:
Li-Zn, Li-Zn-Co, Li-Ti, Li-Zn-Ti, and Li-Zn-Ti-Al-Mn ferrites / 6.1.6.3:
Li-A1, Li-Ga, Li-Cd ferrites and Li-Fe ferrites / 6.1.6.4:
Li-Mn, Li-V, and Li-Ge ferrites / 6.1.6.5:
References for 6.1.6.1 - 6.1.6.5 / 6.1.6.6:
Cu-Zn and Cu-Cd ferrites / 6.1.7:
Cu-Cr ferrites / 6.1.7.3:
Cu-Mg ferrites / 6.1.7.4:
Other ferrites, oxide compounds, and oxide mixtures containing Cu / 6.1.7.5:
References for 6.1.7.1 - 6.1.7.5 / 6.1.7.6:
Co ferrite / 6.1.8:
Co ferrite and Co-Fe mixed oxides / 6.1.8.2:
Co-Zn ferrites / 6.1.8.3:
Co-Cd, Co-Mg, Co-Ni, and Co-Cr ferrites / 6.1.8.4:
References for 6.1.8.1 - 6.1.8.4 / 6.1.8.5:
Cr spinels
Cr oxide-spinels / D. Bonnenberg ; H.P.J. Wijn6.2.1:
Binary Cr oxide-spinels / 6.2.1.1:
Ternary and quarternary Cr oxide-spinels / 6.2.1.2:
References to 6.2.1.1 and 6.2.1.2 / 6.2.1.3:
Cr sulfide, selenide and telluride spinels / G.H. Stauss6.2.2:
Comparison of the crystallographic, electrical, and magnetic properties of Cr spinels containing S, Se and Te / 6.2.2.1:
Cd-Cr selenide spinel / 6.2.2.2:
Cd-Cr selenide spinel with substitutions / 6.2.2.4:
Cd-Cr sulfide spinel and substituted compounds / 6.2.2.5:
Hg-Cr selenide, Hg-Cr sulfide spinels and their substituted compounds / 6.2.2.6:
Cu-Cr S, Se and Te spinels / 6.2.2.7:
Cu-Cr S, Se and Te spinels with substitutions / 6.2.2.8:
Fe-Mn-, Co- and Zn-Cr S and Se spinels and their substituted compounds / 6.2.2.9:
References for 6.2.2.1 - 6.2.2.9 / 6.2.2.10:
Further spinels
V spinels and substituted V spinels / 6.3.1:
Ge spinels and substituted Ge spinels / 6.3.1.1:
Rh spinels and substituted Rh spinels / 6.3.3:
References to 6.3.1 - 6.3.3 / 6.3.4:
Al spinels and substituted Al spinels / 6.3.5:
Ga spinels and substituted Ga spinels / 6.3.6:
In spinels and substituted In spinels / 6.3.7:
References to 6.3.5 - 6.3.7 / 6.3.8:
Co spinels and substituted Co spinels / 6.3.9:
Ni spinels and substituted Ni spinels / 6.3.10:
Te spinels and substituted Te spinels / 6.3.11:
Mn spinels and substituted Mn spinels / 6.3.12:
Ti spinels and substituted Ti spinels / 6.3.13:
References to 6.3.9 - 6.3.13 / 6.3.14:
Mo spinels and substituted Mo spinels / 6.3.15:
W spinels and substituted W spinels / 6.3.16:
Nb spinels and substituted Nb spinels / 6.3.17:
Zr spinels / 6.3.18:
Sb spinels and substituted Sb spinels / 6.3.19:
Sn spinels and substituted Sn spinels / 6.3.20:
Si spinels and substituted Si spinels / 6.3.21:
References to 6.3.15 - 6.3.21 / 6.3.22:
Hexagonal ferrites / 7:
Quantities and units / 7.0:
List of symbols / 7.2:
Chemical compositions and phase diagrams of hexagonal ferrites / 7.3:
Crystal structures / 7.4:
Paramagnetic properties of ferrites with hexagonal crystal structures / 7.5:
M (magnetoplumbite)-type ferrites / 7.6:
Survey of the chemical substitutions in the M structure and room temperature lattice constants / 7.6.1:
Electric and dielectric properties / 7.6.2:
Môssbauer spectra, saturation magnetization, and Curie temperature / 7.6.3:
Magneto-crystalline anisotropy / 7.6.4:
Hysteresis properties / 7.6.6:
High-frequency magnetic properties / 7.6.7:
Magnetic spectrum / 7.6.7.1:
Line width of the ferromagnetic resonance / 7.6.7.2:
W-type ferrites / 7.7:
Survey of chemical substitutions in the W structure / 7.7.1:
Saturation magnetization and Curie temperature / 7.7.2:
Magnetostriction / 7.7.4:
Y-type ferrites / 7.7.7:
Lattice parameters / 7.8.1:
Mössbauer spectra, saturation magnetization, spectroscopic splitting factor, and Curie temperature / 7.8.2:
Magneto-crystalline anisotropy derived from static measurements / 7.8.4:
Magneto-crystalline anisotropy field derived from the ferromagnetic resonance frequency / 7.8.4.2:
Magnetic spectrum of the initial permeability / 7.8.5:
Ferromagnetic resonance properties / 7.8.6.2:
Non-linear effects in the ferromagnetic resonance / 7.8.6.3:
Z-type ferrites / 7.9:
Resistivity / 7.9.1:
U-type ferrites / 7.9.3:
Calcium ferrites / 7.11:
References for 7 / 7.12:
Index of substances for III/4a and III/4b / 8:
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
58.
図書
K.A. Keller ... [et al.] ; Hrsg., H. Schopper
目次情報:
続きを見る
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
Climate definition (See Vol.4C1)
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds / Volume 4:
Introduction / 12:
Magnetic and Other Properties of Oxides and Related Compounds
General introduction / M. Hantel1.1-l1.4:
See Vol. 19A / Subvolume B:
General remarks / 6:
Climate modeling / A.R. Forrester
Alloys and compounds of 3d elements with main group elements / 1.2:
Literature covered and selection of data / W. Gräper12.1:
Nitroxide radicals
See Vol. 19B
Non-iron garnets / 1.3:
Arrangement of tables and data
3d elements and C, Si, Ge, Sn or Pb (Y. NAKAMURA) / 5.0:
Formal classification criteria
Nitroxides formed by trapping with nitrosoalkanes (See Vol.17D1) / 1.4:
Abbreviations and units used for presenting the data
Physical classification criteria / 6.3:
Nitroxides formed by trapping with nitrosoarenes, nitrosoheterocycles and nitroarenes (See Vol.17D1)
Magnetic susceptibility data / 1.5.4.2:
Indexes
Ti and V alloys and compounds / A:
Operational classification criteria
Nitroxides formed by trapping with acyclic nitrones / 1.6:
Paramagnetic susceptibility above the ordering temperature / 1.5.4.3:
List of symbols and units
Cr alloys and compounds / B:
References for 12
alpha-Phenyl N-t-butylnitrone / 1.7:
Susceptibility data at low temperatures in the vicinity of an ordering temperature / 1.5.4.4:
List of universal constants
Mn alloys and compounds / C:
alpha-Methylene-N-t-butyl nitrone / 1.8:
Summary of susceptibility parameters and transition temperatures / 1.5.4.5:
The present global surface climate
Glossary of general abbreviations
Fe alloys and compounds / 5.2:
N,N'-Di-t-butyl ethylidene dinitrone / 13.1:
Tables of nuclear quadrupole interaction parameters (See Vol.20A) / 1.5.4.5.1:
Magnetization / 6.4.4:
The earthÆs surface as part of the global climate system
Alloys and compounds with C and Si / 2.1:
Introductory remarks / 13.2:
alpha-4-(Pyridinyl-1-oxide)N-t-butyl nitrone
Crystallographic and structural data / 1.5.4.5.2:
Selected concepts in quantitative climate description
Nuclear constants of quadrupolar elements
Alloys and compounds with Ge
alpha-2- and 3-(Pyridinyl-1-oxide)N-t-butyl nitrones / 13.3:
Ratios of nuclear quadrupole moments of isotopic nuclides / 1.5.4.5.3:
Location and environment of ions in the unit cell of the garnet lattice / 6.4.6:
Quantitative respresentation of the global surface climate
Alloys and compounds with Sn / 2.4:
Values of <(a0 /r)3 > for the valence states of some neutral atoms / 13.4:
alpha-4-Pyridinyl and alpha-2,3 and 4-(N-alkylpyridinium) N-t-butyl nitrones
Oxygen coordinates, interionic spacings, and angles of compounds with garnet structure / 1.5.4.6:
Climate classification
Atomic quadrupole coupling constants of some elements
Co and Ni alloys and compounds
alpha-(2-Sulfonyloxyphenyl)N-t-butyl nitrone sodium salt / 13.5:
Sternheimer antishielding factor for atoms, free ions and ions in crystals / 1.5.4.7:
Lattice parameters and density of garnet systems / 6.4.8:
List of abbreviations used in chapter 13
MM'X ternary compounds / 2.7:
Transition frequencies between nuclear quadrupole energy levels / 13.6:
alpha-(2,4,6-Trimethoxyphenyl)N-t-butyl nitrone
Magnetic structure of DyAlG and ErGaG / 1.5.4.8:
References for 13
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
References for 1.5.4 / 5.4:
alpha-(2,6-Di-t-butyl-4-hydroxyphenyl)N-t-butyl nitrone / 14:
Specific Surfaces Climates (See Vol.4C1) / 1.5.5:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Results of magnetic resonance experiments / 6.4.10:
Heusler alloys (P.J. WEBSTER, K.R.A. ZIEBECK) / 15:
Climate variations (See Vol.4C1)
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
alpha-(p-Dodecyloxyphenyl)N-t-butyl nitrone
Paramagnetic resonance of rare earth impurities in diamagnetic garnets / 1.5.5.1:
The Planetary Boundary Layer (PBL) (See Vol.4C1)
Crystallographic structure
Nuclear quadrupole resonance data
Other alpha-aryl N-t-butyl nitrones
Paramagnetic resonance of impurities with d electrons in diamagnetic garnets / 1.5.5.1.1:
Chemical order
alpha-Phenyl N-(1,3-dioxanyl)nitrone
Paramagnetic resonance of impurities in paramagnetic garnets / 1.5.5.1.1.1:
General model
Resonance data tables
alpha(4-(N-Methylpyridinium))N-t-butyl nitrone
Deuterium - Chlorine (See Vol.20A) / 1.5.5.1.1.2:
Nuclear magnetic resonance experiments / 6.4.14:
Chlorine (continued) - Rubidium (See Vol.20B)
A statistical model / 5.5:
Other alpha-aryl nitrones / 50:
Results from optical spectra / 1.5.5.1.1.3:
Zirconium, Niobium, Molybdenum, Technetium
Preferential disorder
Other N-t-butyl nitrones / 51:
Crystal field analysis and parameters / 1.5.5.1.2:
Indium
Magnetic order
N-Cyanoisopropyl nitrones / 52:
Summary of references for some results from optical measurements / 1.5.5.1.2.1:
Antimony
Ferromagnetic order / 5.6:
alpha-Methylene and alpha-ethylene N-duryl nitrones / 53:
Spin-lattice relaxation of paramagnetic ions in garnets / 1.5.5.1.2.2:
- 55 Iodine
Antiferromagnetic order
Nitrones derived from sugars / 56:
Cesium / 1.5.5.2:
Bulk magnetic properties
Nitroxides formed by trapping with cyclic nitrones / 57:
Barium / 1.5.5.2.1:
5,5-Dimethyl-1-pyrroline N-oxide / 58:
The dependence of the spin-lattice relaxation time on magnetic field
Lanthanides / 1.5.5.2.2:
Ferromagnets X2 MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2 MnZ with X = 3d element
5-Heptyl-3,3,5-trimethyl-1-pyrroline N-oxide / 60:
Specific heat of rare earth gallium garnets
Rhenium / 1.5.5.2.2.2:
X2 MnZ with X = 4d element
5-Hexadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 61:
Specific heat of two rare earth aluminium garnets
Gold / 1.5.5.2.3:
Antiferromagnets X2 MnZ
5-Octadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 62:
Faraday rotation in paramagnetic non-iron garnets
Mercury / 1.5.5.2.3.1:
4,5,5-Trimethyl-1-pyrroline N-oxide / 63:
Magnetomechanical properties
Bismuth / 1.5.5.2.3.2:
3,5,5-Trimethyl-1-pyrroline N-oxide / 4:
Magnetostriction of rare earth gallates and germanates with a garnet structure
Diagrams of NQR frequencies and related properties / 1.5.5.2.3.3:
X2 MnZ with X = 5d element
2,5,5-Trimethyl-1-pyrroline N-oxide / 4.1:
Macroscopic magnetoelastic tensors for paramagnetic rare earth ions in diamagnetic garnet hosts
Ferromagnets X2 YZ for Y other than Mn / 1.5.5.2.4:
Other 5,5-dialkyl-1-pyrroline N-oxides / 4.2:
Magnetoacoustic properties
Diagrams / 1.5.5.2.4.1:
Co2 YZ with Y = 4A, 5A element
2,2,5,5-Tetramethyl-3-imidazoline N-oxides / 4.3:
Neutron diffraction results near and below the magnetic ordering point
References for chapter 4 / 1.5.5.2.4.2:
Co2 YZ with Y = 6A, 7A element
4-Methoxycarbonyl-3,3,5,5-tetra-alkyl-1-pyrroline N-oxide
References
Structure formulas / 1.5.5.2.4.3:
Fe2 YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2 FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Index of gross molecular formulas / 1.5.5.2.4.5:
Mn2 VZ
Cyclic dialkyl nitroxides
Spinels
Index of substance names / 1.5.5.2.5:
Arrangement
Paramagnets X2 YZ with X, Y = 3d element
Aziridinyl 1-oxyls
Index of CAS registry numbers / B.A. Calhoun6.0:
Quaternary alloys
Azetidinyl 1-oxyls
Errata / 1.5.5.2.6.1:
Corrections (See Vol.31B) / 6.7.3:
(XX*)2 MnSn with X, X* 3d elements / 6.0.1:
Pyrrolidinyl-1-oxyls
Ni2 (YY*)Sn with Y, Y* = 3d elements / 1.5.5.2.6.2:
Pyrrolinyl-1-oxyls
Structure / 1.5.5.2.6.3:
(XX*)2 TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2 MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2 MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2 Mn (ZZ*) / 6.1.0.1:
Isoindolinyl-oxyls
A-B exchange interaction; magnetization / 1.5.5.2.7:
Clb Intermetallic compounds XYZ / 6.1.0.2:
Oxaindolinyl-oxyls
A-A, B-B exchange interaction; magnetic order / 1.5.5.2.7.1:
Ferromagnets XMnZ with X = 3d element / 6.1.0.3:
Piperidinyl-1-oxyls
Hyperfine interactions (Môssbauer and NMR methods) / 1.5.5.2.7.2:
Ferromagnets XMnZ with X = 4d, 5d element / 6.1.0.4:
Tetrahydropyridinyl-1-oxyls
Anisotropy / 1.5.5.2.7.3:
Ferromagnets - paramagnets XYSb for Y other than Mn / 6.1.0.5:
Diaza- and triaza-cyclohexyl- and -cyclohexenyl-1-oxyls
Ferrimagnetic resonance / 1.5.5.2.7.4:
Antiferromagnets XMnZ with X = 3d, 4d, 5d element / 6.1.0.6:
Oxazinyl-1-oxyls
Accuracy / 1.5.5.2.7.5:
Quaternary alloys (XX*)MnSb with X, X* = 3d, 4d, 5d elements / 6.1.0.7:
1,4 Azaphosphacyclohexyl-1-oxyls
References for 6.0 and 6.1.0 / 1.5.5.2.7.6:
X2-x MnSb with X = 3d, 4d element / 6.1.1:
Azepinyl-1-oxyls and macrocyclic N-oxyls
Neutron diffraction and magnetic order / 1.5.5.3:
Bicyclic nitroxides
Alkyl, aryl and vinyl nitroxides / R.A. Lefever1.5.5.3.1:
Neutron diffraction theory / 1.5.5.3.2:
Aryl, diaryl and divinylnitroxides
Tables and figures / 1.5.5.3.3:
Magnetic and chemical ordering data / 6.1.1.2:
Alkyl imidoyl and nitronyl nitroxides
References for 6.1.1.1 / 1.5.5.3.3.1:
Co2 MnZ / 6.1.2:
Acyl nitroxides
Ni2 MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2 MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2 MnZ / 1.5.5.3.3.4:
Thio and sulfonyl nitroxides
Clb compounds XYZ / 1.5.5.3.3.5:
Phospho nitroxides
Polarized neutron measurements on single crystals / 1.5.5.3.4:
Other nitroxides
References for 6.4 - 6.16 / 1.5.5.3.4.1:
X2 MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3 Z / 6.1.2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H) / 1.5.5.3.4.3:
Ni ferrite with Co substitutions
Fe3-x Mnx Si / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2 YZ with Y = 3d element / 6.1.2.5:
Ge substituted Ni ferrite / 1.5.5.4:
Dynamics / 6.1.2.6:
Ni ferrite chromite / 1.5.5.4.1:
Lattice dynamics / 6.1.2.7:
Ni ferrite vanadate / 1.5.5.4.2:
Phase transitions / 6.1.2.8:
Ni ferrite aluminate / 1.5.5.4.3:
Spin dynamics / 6.1.2.9:
Ni gallate ferrite / 1.5.5.5:
Electrical properties / 6.1.2.10:
References for 6.1.2.0 - 6.1.2.9 / 1.5.5.5.1:
Electrical resistivity / 6.1.3:
Magnetoresistance / 1.5.5.5.2:
Hall effect / R. Vautier ; M. Paulus1.5.5.5.3:
Thermoelectric power / 1.5.5.5.4:
Thermal properties / 1.5.5.6:
Phase equilibria and structure / 1.5.5.6.1:
Specific heat / 6.1.3.1.1:
Phase equilibria / 1.5.5.6.1.1:
Cu2 MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-x Alx / 6.1.3.1.4:
Ionic distribution / 1.5.5.6.2:
Superconductivity / 6.1.3.1.5:
Spin arrangement / 1.5.5.7:
Hyperfine fields / 6.1.3.2:
Mössbauer spectra of Sn-doped alloys (119 Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2 Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2 MnSb, XMnSb with X = 8A element / 6.1.3.2.4:
Diffusion and oxidation coefficients / 1.5.5.7.3:
Mössbauer spectra of Sb-based alloys (121 Sb), X2 MnSb, XMnSb with X = 1B, 8A element / 6.1.3.2.5:
Ferrite thermodynamics / 1.5.5.7.4:
Mössbauer <$$$> element / 6.1.3.2.6:
Solid crystal growth / 1.5.5.7.5:
D03 , compounds Fe3 Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03 -L21 compounds Fe3-x Yx Si with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5 V0.5-x Alx / 6.1.3.4:
References for 1.5.5 / 1.5.5.8:
Metallic perovskites (PH. L'HÉRITIER, D. FRUCHART, R. MADAR, R. FRUCHART) / 1.5.6:
Magnetoresistance and thermomagnetic effect / 1.5.6.1:
Crystallographic properties of Mc XMf 3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of Mc XMf 3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
Mc XTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
Mc XCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
Mc XM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
Mc XFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
Mc XCo3 / 6.1.3.6:
Magnetocrystalline anisotropy / 1.5.6.3.6:
Mc XNi3 / 6.1.3.6.1:
Magnetocrystalline anisotropy in Mn ferrite / 1.5.6.4:
References for 1.5.6 / 6.1.3.6.2:
Magnetocrystalline anisotropy in Mn ferrite with substitutions
Alloys and compounds of 4d or 5d elements with main group elements (S. MISAWA, K. KANEMATSU) / 6.1.3.6.3:
Linear magnetostriction / 1.6.1:
Magnetic annealing / 6.1.3.6.4:
Alloys and compounds of Zr / 6.1.3.7:
Domains and domain walls / 1.6.2.1:
ZrHx / 6.1.3.7.1:
Domain wall motion experiments / 1.6.2.2:
ZrCuAl / 6.1.3.7.2:
Domain structure / 1.6.2.3:
ZrZn2 / 6.1.3.8:
Response of magnetization to a field / 1.6.2.4:
Other compounds of Zr / 6.1.3.8.1:
High temperature susceptibility / 1.6.3:
Alloys and compounds of Nb / 6.1.3.8.2:
High field susceptibility in the ferrimagnetic state / 1.6.3.1:
Nb4 hydride / 6.1.3.8.3:
Permeability variation with composition, impurities, irradiation, and grain size / 1.6.3.2:
A15 and sigma-phase alloys of Nb / 6.1.3.8.4:
Permeability vs. temperature / 1.6.3.3:
Nb carbides / 6.1.3.8.5:
Permeability vs. pressure / 1.6.3.4:
Nb nitride / 6.1.3.8.6:
Permeability vs. frequency / 1.6.3.5:
Nb chalcogenides / 6.1.3.8.7:
After-effect, disaccommodation, and viscosity / 1.6.4:
Alloys and compounds of Mo / 6.1.3.9:
Microwave properties / 1.6.4.1:
Mo borides / 6.1.3.9.1:
Resonance line width / 1.6.4.2:
MoAlGe / 6.1.3.9.2:
Spectroscopic splitting factor / 1.6.4.3:
Mo carbides / 6.1.3.10:
Optical properties (absorption) / 1.6.4.4:
Mo chalcogenides / 6.1.3.11:
References for 6.1.3.0 - 6.1.3.10 / 1.6.5:
Compounds of Ru / 6.1.4:
Alloys of Rh / 1.6.6:
Alloys and compounds of Pd / C.J. Kriessman ; A.P. Greifer1.6.7:
Pd hydrides / 1.6.7.1:
Pd-Li and Pd-Na compounds / 1.6.7.2:
fcc alloys of Pd / 1.6.7.3:
MgMn ferrites and MgMn ferrites with substitutions / 1.6.7.4:
Other compounds of Pd / 6.1.4.2.0:
Alloys and compounds of Hf / 1.6.8:
Crystallographic properties, physical properties, phase data, magnetic moments / 1.6.8.1:
Hf hydrides / 6.1.4.2.2:
HfZn2 / 1.6.8.2:
Losses / 1.6.8.3:
Hf carbides / 6.1.4.2.4:
Square-loop properties / 1.6.8.4:
Hf chalcogenides / 6.1.4.2.5:
Alloys and compounds of Ta / 1.6.9:
Other ferrite systems containing Mg / 1.6.9.1:
Ta hydrides / 6.1.4.3.0:
Ta carbides / 1.6.9.2:
Ta chalcogenides / 1.6.9.3:
Alloys and compounds of W / 1.6.10:
W borides / 1.6.10.1:
WP / 6.1.4.3.3:
W chalcogenides / 1.6.10.3:
Alloys and compounds of Re / 1.6.11:
Compounds of Os / 1.6.12:
Alloys and compounds of Pt / 1.6.13:
Pt-Li and Pt-Na compounds / 6.1.4.3.6:
fcc alloys of Pt / 1.6.13.2:
Other systems containing trivalent and higher valency cations / 6.1.4.3.7:
Other compounds of Pt
References for 1.6 / 6.1.4.3.8:
References for 6.1.4.1 - 6.1.4.3 / 6.1.4.4:
Zn, Zn-Fe, Zn-Ti, Zn-Li, Zn-Ti-Li, Zn-Cd, Zn-Mg, Zn-Co, and Zn-Cu ferrites / V.J. Folen6.1.5:
Zn-Ni, Zn-Ni-Ge, and Zn-Ni-Sb ferrites / 6.1.5.2:
References for 6.1.5.1 and 6.1.5.2 / 6.1.5.3:
Li ferrite / 6.1.6:
Li-Cr ferrites / 6.1.6.2:
Li-Zn, Li-Zn-Co, Li-Ti, Li-Zn-Ti, and Li-Zn-Ti-Al-Mn ferrites / 6.1.6.3:
Li-A1, Li-Ga, Li-Cd ferrites and Li-Fe ferrites / 6.1.6.4:
Li-Mn, Li-V, and Li-Ge ferrites / 6.1.6.5:
References for 6.1.6.1 - 6.1.6.5 / 6.1.6.6:
Cu-Zn and Cu-Cd ferrites / 6.1.7:
Cu-Cr ferrites / 6.1.7.3:
Cu-Mg ferrites / 6.1.7.4:
Other ferrites, oxide compounds, and oxide mixtures containing Cu / 6.1.7.5:
References for 6.1.7.1 - 6.1.7.5 / 6.1.7.6:
Co ferrite / 6.1.8:
Co ferrite and Co-Fe mixed oxides / 6.1.8.2:
Co-Zn ferrites / 6.1.8.3:
Co-Cd, Co-Mg, Co-Ni, and Co-Cr ferrites / 6.1.8.4:
References for 6.1.8.1 - 6.1.8.4 / 6.1.8.5:
Cr spinels
Cr oxide-spinels / D. Bonnenberg ; H.P.J. Wijn6.2.1:
Binary Cr oxide-spinels / 6.2.1.1:
Ternary and quarternary Cr oxide-spinels / 6.2.1.2:
References to 6.2.1.1 and 6.2.1.2 / 6.2.1.3:
Cr sulfide, selenide and telluride spinels / G.H. Stauss6.2.2:
Comparison of the crystallographic, electrical, and magnetic properties of Cr spinels containing S, Se and Te / 6.2.2.1:
Cd-Cr selenide spinel / 6.2.2.2:
Cd-Cr selenide spinel with substitutions / 6.2.2.4:
Cd-Cr sulfide spinel and substituted compounds / 6.2.2.5:
Hg-Cr selenide, Hg-Cr sulfide spinels and their substituted compounds / 6.2.2.6:
Cu-Cr S, Se and Te spinels / 6.2.2.7:
Cu-Cr S, Se and Te spinels with substitutions / 6.2.2.8:
Fe-Mn-, Co- and Zn-Cr S and Se spinels and their substituted compounds / 6.2.2.9:
References for 6.2.2.1 - 6.2.2.9 / 6.2.2.10:
Further spinels
V spinels and substituted V spinels / 6.3.1:
Ge spinels and substituted Ge spinels / 6.3.1.1:
Rh spinels and substituted Rh spinels / 6.3.3:
References to 6.3.1 - 6.3.3 / 6.3.4:
Al spinels and substituted Al spinels / 6.3.5:
Ga spinels and substituted Ga spinels / 6.3.6:
In spinels and substituted In spinels / 6.3.7:
References to 6.3.5 - 6.3.7 / 6.3.8:
Co spinels and substituted Co spinels / 6.3.9:
Ni spinels and substituted Ni spinels / 6.3.10:
Te spinels and substituted Te spinels / 6.3.11:
Mn spinels and substituted Mn spinels / 6.3.12:
Ti spinels and substituted Ti spinels / 6.3.13:
References to 6.3.9 - 6.3.13 / 6.3.14:
Mo spinels and substituted Mo spinels / 6.3.15:
W spinels and substituted W spinels / 6.3.16:
Nb spinels and substituted Nb spinels / 6.3.17:
Zr spinels / 6.3.18:
Sb spinels and substituted Sb spinels / 6.3.19:
Sn spinels and substituted Sn spinels / 6.3.20:
Si spinels and substituted Si spinels / 6.3.21:
References to 6.3.15 - 6.3.21 / 6.3.22:
Hexagonal ferrites / 7:
Quantities and units / 7.0:
List of symbols / 7.2:
Chemical compositions and phase diagrams of hexagonal ferrites / 7.3:
Crystal structures / 7.4:
Paramagnetic properties of ferrites with hexagonal crystal structures / 7.5:
M (magnetoplumbite)-type ferrites / 7.6:
Survey of the chemical substitutions in the M structure and room temperature lattice constants / 7.6.1:
Electric and dielectric properties / 7.6.2:
Môssbauer spectra, saturation magnetization, and Curie temperature / 7.6.3:
Magneto-crystalline anisotropy / 7.6.4:
Hysteresis properties / 7.6.6:
High-frequency magnetic properties / 7.6.7:
Magnetic spectrum / 7.6.7.1:
Line width of the ferromagnetic resonance / 7.6.7.2:
W-type ferrites / 7.7:
Survey of chemical substitutions in the W structure / 7.7.1:
Saturation magnetization and Curie temperature / 7.7.2:
Magnetostriction / 7.7.4:
Y-type ferrites / 7.7.7:
Lattice parameters / 7.8.1:
Mössbauer spectra, saturation magnetization, spectroscopic splitting factor, and Curie temperature / 7.8.2:
Magneto-crystalline anisotropy derived from static measurements / 7.8.4:
Magneto-crystalline anisotropy field derived from the ferromagnetic resonance frequency / 7.8.4.2:
Magnetic spectrum of the initial permeability / 7.8.5:
Ferromagnetic resonance properties / 7.8.6.2:
Non-linear effects in the ferromagnetic resonance / 7.8.6.3:
Z-type ferrites / 7.9:
Resistivity / 7.9.1:
U-type ferrites / 7.9.3:
Calcium ferrites / 7.11:
References for 7 / 7.12:
Index of substances for III/4a and III/4b / 8:
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
59.
図書
Wolfgang Pies, Alarich Weiss ; Herausgeber: K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
Climate definition (See Vol.4C1)
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds / Volume 4:
Introduction / 12:
Magnetic and Other Properties of Oxides and Related Compounds
General introduction / M. Hantel1.1-l1.4:
See Vol. 19A / Subvolume B:
General remarks / 6:
Climate modeling / A.R. Forrester
Alloys and compounds of 3d elements with main group elements / 1.2:
Literature covered and selection of data / W. Gräper12.1:
Nitroxide radicals
See Vol. 19B
Non-iron garnets / 1.3:
Arrangement of tables and data
3d elements and C, Si, Ge, Sn or Pb (Y. NAKAMURA) / 5.0:
Formal classification criteria
Nitroxides formed by trapping with nitrosoalkanes (See Vol.17D1) / 1.4:
Abbreviations and units used for presenting the data
Physical classification criteria / 6.3:
Nitroxides formed by trapping with nitrosoarenes, nitrosoheterocycles and nitroarenes (See Vol.17D1)
Magnetic susceptibility data / 1.5.4.2:
Indexes
Ti and V alloys and compounds / A:
Operational classification criteria
Nitroxides formed by trapping with acyclic nitrones / 1.6:
Paramagnetic susceptibility above the ordering temperature / 1.5.4.3:
List of symbols and units
Cr alloys and compounds / B:
References for 12
alpha-Phenyl N-t-butylnitrone / 1.7:
Susceptibility data at low temperatures in the vicinity of an ordering temperature / 1.5.4.4:
List of universal constants
Mn alloys and compounds / C:
alpha-Methylene-N-t-butyl nitrone / 1.8:
Summary of susceptibility parameters and transition temperatures / 1.5.4.5:
The present global surface climate
Glossary of general abbreviations
Fe alloys and compounds / 5.2:
N,N'-Di-t-butyl ethylidene dinitrone / 13.1:
Tables of nuclear quadrupole interaction parameters (See Vol.20A) / 1.5.4.5.1:
Magnetization / 6.4.4:
The earthÆs surface as part of the global climate system
Alloys and compounds with C and Si / 2.1:
Introductory remarks / 13.2:
alpha-4-(Pyridinyl-1-oxide)N-t-butyl nitrone
Crystallographic and structural data / 1.5.4.5.2:
Selected concepts in quantitative climate description
Nuclear constants of quadrupolar elements
Alloys and compounds with Ge
alpha-2- and 3-(Pyridinyl-1-oxide)N-t-butyl nitrones / 13.3:
Ratios of nuclear quadrupole moments of isotopic nuclides / 1.5.4.5.3:
Location and environment of ions in the unit cell of the garnet lattice / 6.4.6:
Quantitative respresentation of the global surface climate
Alloys and compounds with Sn / 2.4:
Values of <(a0 /r)3 > for the valence states of some neutral atoms / 13.4:
alpha-4-Pyridinyl and alpha-2,3 and 4-(N-alkylpyridinium) N-t-butyl nitrones
Oxygen coordinates, interionic spacings, and angles of compounds with garnet structure / 1.5.4.6:
Climate classification
Atomic quadrupole coupling constants of some elements
Co and Ni alloys and compounds
alpha-(2-Sulfonyloxyphenyl)N-t-butyl nitrone sodium salt / 13.5:
Sternheimer antishielding factor for atoms, free ions and ions in crystals / 1.5.4.7:
Lattice parameters and density of garnet systems / 6.4.8:
List of abbreviations used in chapter 13
MM'X ternary compounds / 2.7:
Transition frequencies between nuclear quadrupole energy levels / 13.6:
alpha-(2,4,6-Trimethoxyphenyl)N-t-butyl nitrone
Magnetic structure of DyAlG and ErGaG / 1.5.4.8:
References for 13
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
References for 1.5.4 / 5.4:
alpha-(2,6-Di-t-butyl-4-hydroxyphenyl)N-t-butyl nitrone / 14:
Specific Surfaces Climates (See Vol.4C1) / 1.5.5:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Results of magnetic resonance experiments / 6.4.10:
Heusler alloys (P.J. WEBSTER, K.R.A. ZIEBECK) / 15:
Climate variations (See Vol.4C1)
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
alpha-(p-Dodecyloxyphenyl)N-t-butyl nitrone
Paramagnetic resonance of rare earth impurities in diamagnetic garnets / 1.5.5.1:
The Planetary Boundary Layer (PBL) (See Vol.4C1)
Crystallographic structure
Nuclear quadrupole resonance data
Other alpha-aryl N-t-butyl nitrones
Paramagnetic resonance of impurities with d electrons in diamagnetic garnets / 1.5.5.1.1:
Chemical order
alpha-Phenyl N-(1,3-dioxanyl)nitrone
Paramagnetic resonance of impurities in paramagnetic garnets / 1.5.5.1.1.1:
General model
Resonance data tables
alpha(4-(N-Methylpyridinium))N-t-butyl nitrone
Deuterium - Chlorine (See Vol.20A) / 1.5.5.1.1.2:
Nuclear magnetic resonance experiments / 6.4.14:
Chlorine (continued) - Rubidium (See Vol.20B)
A statistical model / 5.5:
Other alpha-aryl nitrones / 50:
Results from optical spectra / 1.5.5.1.1.3:
Zirconium, Niobium, Molybdenum, Technetium
Preferential disorder
Other N-t-butyl nitrones / 51:
Crystal field analysis and parameters / 1.5.5.1.2:
Indium
Magnetic order
N-Cyanoisopropyl nitrones / 52:
Summary of references for some results from optical measurements / 1.5.5.1.2.1:
Antimony
Ferromagnetic order / 5.6:
alpha-Methylene and alpha-ethylene N-duryl nitrones / 53:
Spin-lattice relaxation of paramagnetic ions in garnets / 1.5.5.1.2.2:
- 55 Iodine
Antiferromagnetic order
Nitrones derived from sugars / 56:
Cesium / 1.5.5.2:
Bulk magnetic properties
Nitroxides formed by trapping with cyclic nitrones / 57:
Barium / 1.5.5.2.1:
5,5-Dimethyl-1-pyrroline N-oxide / 58:
The dependence of the spin-lattice relaxation time on magnetic field
Lanthanides / 1.5.5.2.2:
Ferromagnets X2 MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2 MnZ with X = 3d element
5-Heptyl-3,3,5-trimethyl-1-pyrroline N-oxide / 60:
Specific heat of rare earth gallium garnets
Rhenium / 1.5.5.2.2.2:
X2 MnZ with X = 4d element
5-Hexadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 61:
Specific heat of two rare earth aluminium garnets
Gold / 1.5.5.2.3:
Antiferromagnets X2 MnZ
5-Octadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 62:
Faraday rotation in paramagnetic non-iron garnets
Mercury / 1.5.5.2.3.1:
4,5,5-Trimethyl-1-pyrroline N-oxide / 63:
Magnetomechanical properties
Bismuth / 1.5.5.2.3.2:
3,5,5-Trimethyl-1-pyrroline N-oxide / 4:
Magnetostriction of rare earth gallates and germanates with a garnet structure
Diagrams of NQR frequencies and related properties / 1.5.5.2.3.3:
X2 MnZ with X = 5d element
2,5,5-Trimethyl-1-pyrroline N-oxide / 4.1:
Macroscopic magnetoelastic tensors for paramagnetic rare earth ions in diamagnetic garnet hosts
Ferromagnets X2 YZ for Y other than Mn / 1.5.5.2.4:
Other 5,5-dialkyl-1-pyrroline N-oxides / 4.2:
Magnetoacoustic properties
Diagrams / 1.5.5.2.4.1:
Co2 YZ with Y = 4A, 5A element
2,2,5,5-Tetramethyl-3-imidazoline N-oxides / 4.3:
Neutron diffraction results near and below the magnetic ordering point
References for chapter 4 / 1.5.5.2.4.2:
Co2 YZ with Y = 6A, 7A element
4-Methoxycarbonyl-3,3,5,5-tetra-alkyl-1-pyrroline N-oxide
References
Structure formulas / 1.5.5.2.4.3:
Fe2 YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2 FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Index of gross molecular formulas / 1.5.5.2.4.5:
Mn2 VZ
Cyclic dialkyl nitroxides
Spinels
Index of substance names / 1.5.5.2.5:
Arrangement
Paramagnets X2 YZ with X, Y = 3d element
Aziridinyl 1-oxyls
Index of CAS registry numbers / B.A. Calhoun6.0:
Quaternary alloys
Azetidinyl 1-oxyls
Errata / 1.5.5.2.6.1:
Corrections (See Vol.31B) / 6.7.3:
(XX*)2 MnSn with X, X* 3d elements / 6.0.1:
Pyrrolidinyl-1-oxyls
Ni2 (YY*)Sn with Y, Y* = 3d elements / 1.5.5.2.6.2:
Pyrrolinyl-1-oxyls
Structure / 1.5.5.2.6.3:
(XX*)2 TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2 MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2 MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2 Mn (ZZ*) / 6.1.0.1:
Isoindolinyl-oxyls
A-B exchange interaction; magnetization / 1.5.5.2.7:
Clb Intermetallic compounds XYZ / 6.1.0.2:
Oxaindolinyl-oxyls
A-A, B-B exchange interaction; magnetic order / 1.5.5.2.7.1:
Ferromagnets XMnZ with X = 3d element / 6.1.0.3:
Piperidinyl-1-oxyls
Hyperfine interactions (Môssbauer and NMR methods) / 1.5.5.2.7.2:
Ferromagnets XMnZ with X = 4d, 5d element / 6.1.0.4:
Tetrahydropyridinyl-1-oxyls
Anisotropy / 1.5.5.2.7.3:
Ferromagnets - paramagnets XYSb for Y other than Mn / 6.1.0.5:
Diaza- and triaza-cyclohexyl- and -cyclohexenyl-1-oxyls
Ferrimagnetic resonance / 1.5.5.2.7.4:
Antiferromagnets XMnZ with X = 3d, 4d, 5d element / 6.1.0.6:
Oxazinyl-1-oxyls
Accuracy / 1.5.5.2.7.5:
Quaternary alloys (XX*)MnSb with X, X* = 3d, 4d, 5d elements / 6.1.0.7:
1,4 Azaphosphacyclohexyl-1-oxyls
References for 6.0 and 6.1.0 / 1.5.5.2.7.6:
X2-x MnSb with X = 3d, 4d element / 6.1.1:
Azepinyl-1-oxyls and macrocyclic N-oxyls
Neutron diffraction and magnetic order / 1.5.5.3:
Bicyclic nitroxides
Alkyl, aryl and vinyl nitroxides / R.A. Lefever1.5.5.3.1:
Neutron diffraction theory / 1.5.5.3.2:
Aryl, diaryl and divinylnitroxides
Tables and figures / 1.5.5.3.3:
Magnetic and chemical ordering data / 6.1.1.2:
Alkyl imidoyl and nitronyl nitroxides
References for 6.1.1.1 / 1.5.5.3.3.1:
Co2 MnZ / 6.1.2:
Acyl nitroxides
Ni2 MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2 MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2 MnZ / 1.5.5.3.3.4:
Thio and sulfonyl nitroxides
Clb compounds XYZ / 1.5.5.3.3.5:
Phospho nitroxides
Polarized neutron measurements on single crystals / 1.5.5.3.4:
Other nitroxides
References for 6.4 - 6.16 / 1.5.5.3.4.1:
X2 MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3 Z / 6.1.2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H) / 1.5.5.3.4.3:
Ni ferrite with Co substitutions
Fe3-x Mnx Si / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2 YZ with Y = 3d element / 6.1.2.5:
Ge substituted Ni ferrite / 1.5.5.4:
Dynamics / 6.1.2.6:
Ni ferrite chromite / 1.5.5.4.1:
Lattice dynamics / 6.1.2.7:
Ni ferrite vanadate / 1.5.5.4.2:
Phase transitions / 6.1.2.8:
Ni ferrite aluminate / 1.5.5.4.3:
Spin dynamics / 6.1.2.9:
Ni gallate ferrite / 1.5.5.5:
Electrical properties / 6.1.2.10:
References for 6.1.2.0 - 6.1.2.9 / 1.5.5.5.1:
Electrical resistivity / 6.1.3:
Magnetoresistance / 1.5.5.5.2:
Hall effect / R. Vautier ; M. Paulus1.5.5.5.3:
Thermoelectric power / 1.5.5.5.4:
Thermal properties / 1.5.5.6:
Phase equilibria and structure / 1.5.5.6.1:
Specific heat / 6.1.3.1.1:
Phase equilibria / 1.5.5.6.1.1:
Cu2 MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-x Alx / 6.1.3.1.4:
Ionic distribution / 1.5.5.6.2:
Superconductivity / 6.1.3.1.5:
Spin arrangement / 1.5.5.7:
Hyperfine fields / 6.1.3.2:
Mössbauer spectra of Sn-doped alloys (119 Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2 Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2 MnSb, XMnSb with X = 8A element / 6.1.3.2.4:
Diffusion and oxidation coefficients / 1.5.5.7.3:
Mössbauer spectra of Sb-based alloys (121 Sb), X2 MnSb, XMnSb with X = 1B, 8A element / 6.1.3.2.5:
Ferrite thermodynamics / 1.5.5.7.4:
Mössbauer <$$$> element / 6.1.3.2.6:
Solid crystal growth / 1.5.5.7.5:
D03 , compounds Fe3 Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03 -L21 compounds Fe3-x Yx Si with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5 V0.5-x Alx / 6.1.3.4:
References for 1.5.5 / 1.5.5.8:
Metallic perovskites (PH. L'HÉRITIER, D. FRUCHART, R. MADAR, R. FRUCHART) / 1.5.6:
Magnetoresistance and thermomagnetic effect / 1.5.6.1:
Crystallographic properties of Mc XMf 3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of Mc XMf 3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
Mc XTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
Mc XCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
Mc XM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
Mc XFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
Mc XCo3 / 6.1.3.6:
Magnetocrystalline anisotropy / 1.5.6.3.6:
Mc XNi3 / 6.1.3.6.1:
Magnetocrystalline anisotropy in Mn ferrite / 1.5.6.4:
References for 1.5.6 / 6.1.3.6.2:
Magnetocrystalline anisotropy in Mn ferrite with substitutions
Alloys and compounds of 4d or 5d elements with main group elements (S. MISAWA, K. KANEMATSU) / 6.1.3.6.3:
Linear magnetostriction / 1.6.1:
Magnetic annealing / 6.1.3.6.4:
Alloys and compounds of Zr / 6.1.3.7:
Domains and domain walls / 1.6.2.1:
ZrHx / 6.1.3.7.1:
Domain wall motion experiments / 1.6.2.2:
ZrCuAl / 6.1.3.7.2:
Domain structure / 1.6.2.3:
ZrZn2 / 6.1.3.8:
Response of magnetization to a field / 1.6.2.4:
Other compounds of Zr / 6.1.3.8.1:
High temperature susceptibility / 1.6.3:
Alloys and compounds of Nb / 6.1.3.8.2:
High field susceptibility in the ferrimagnetic state / 1.6.3.1:
Nb4 hydride / 6.1.3.8.3:
Permeability variation with composition, impurities, irradiation, and grain size / 1.6.3.2:
A15 and sigma-phase alloys of Nb / 6.1.3.8.4:
Permeability vs. temperature / 1.6.3.3:
Nb carbides / 6.1.3.8.5:
Permeability vs. pressure / 1.6.3.4:
Nb nitride / 6.1.3.8.6:
Permeability vs. frequency / 1.6.3.5:
Nb chalcogenides / 6.1.3.8.7:
After-effect, disaccommodation, and viscosity / 1.6.4:
Alloys and compounds of Mo / 6.1.3.9:
Microwave properties / 1.6.4.1:
Mo borides / 6.1.3.9.1:
Resonance line width / 1.6.4.2:
MoAlGe / 6.1.3.9.2:
Spectroscopic splitting factor / 1.6.4.3:
Mo carbides / 6.1.3.10:
Optical properties (absorption) / 1.6.4.4:
Mo chalcogenides / 6.1.3.11:
References for 6.1.3.0 - 6.1.3.10 / 1.6.5:
Compounds of Ru / 6.1.4:
Alloys of Rh / 1.6.6:
Alloys and compounds of Pd / C.J. Kriessman ; A.P. Greifer1.6.7:
Pd hydrides / 1.6.7.1:
Pd-Li and Pd-Na compounds / 1.6.7.2:
fcc alloys of Pd / 1.6.7.3:
MgMn ferrites and MgMn ferrites with substitutions / 1.6.7.4:
Other compounds of Pd / 6.1.4.2.0:
Alloys and compounds of Hf / 1.6.8:
Crystallographic properties, physical properties, phase data, magnetic moments / 1.6.8.1:
Hf hydrides / 6.1.4.2.2:
HfZn2 / 1.6.8.2:
Losses / 1.6.8.3:
Hf carbides / 6.1.4.2.4:
Square-loop properties / 1.6.8.4:
Hf chalcogenides / 6.1.4.2.5:
Alloys and compounds of Ta / 1.6.9:
Other ferrite systems containing Mg / 1.6.9.1:
Ta hydrides / 6.1.4.3.0:
Ta carbides / 1.6.9.2:
Ta chalcogenides / 1.6.9.3:
Alloys and compounds of W / 1.6.10:
W borides / 1.6.10.1:
WP / 6.1.4.3.3:
W chalcogenides / 1.6.10.3:
Alloys and compounds of Re / 1.6.11:
Compounds of Os / 1.6.12:
Alloys and compounds of Pt / 1.6.13:
Pt-Li and Pt-Na compounds / 6.1.4.3.6:
fcc alloys of Pt / 1.6.13.2:
Other systems containing trivalent and higher valency cations / 6.1.4.3.7:
Other compounds of Pt
References for 1.6 / 6.1.4.3.8:
References for 6.1.4.1 - 6.1.4.3 / 6.1.4.4:
Zn, Zn-Fe, Zn-Ti, Zn-Li, Zn-Ti-Li, Zn-Cd, Zn-Mg, Zn-Co, and Zn-Cu ferrites / V.J. Folen6.1.5:
Zn-Ni, Zn-Ni-Ge, and Zn-Ni-Sb ferrites / 6.1.5.2:
References for 6.1.5.1 and 6.1.5.2 / 6.1.5.3:
Li ferrite / 6.1.6:
Li-Cr ferrites / 6.1.6.2:
Li-Zn, Li-Zn-Co, Li-Ti, Li-Zn-Ti, and Li-Zn-Ti-Al-Mn ferrites / 6.1.6.3:
Li-A1, Li-Ga, Li-Cd ferrites and Li-Fe ferrites / 6.1.6.4:
Li-Mn, Li-V, and Li-Ge ferrites / 6.1.6.5:
References for 6.1.6.1 - 6.1.6.5 / 6.1.6.6:
Cu-Zn and Cu-Cd ferrites / 6.1.7:
Cu-Cr ferrites / 6.1.7.3:
Cu-Mg ferrites / 6.1.7.4:
Other ferrites, oxide compounds, and oxide mixtures containing Cu / 6.1.7.5:
References for 6.1.7.1 - 6.1.7.5 / 6.1.7.6:
Co ferrite / 6.1.8:
Co ferrite and Co-Fe mixed oxides / 6.1.8.2:
Co-Zn ferrites / 6.1.8.3:
Co-Cd, Co-Mg, Co-Ni, and Co-Cr ferrites / 6.1.8.4:
References for 6.1.8.1 - 6.1.8.4 / 6.1.8.5:
Cr spinels
Cr oxide-spinels / D. Bonnenberg ; H.P.J. Wijn6.2.1:
Binary Cr oxide-spinels / 6.2.1.1:
Ternary and quarternary Cr oxide-spinels / 6.2.1.2:
References to 6.2.1.1 and 6.2.1.2 / 6.2.1.3:
Cr sulfide, selenide and telluride spinels / G.H. Stauss6.2.2:
Comparison of the crystallographic, electrical, and magnetic properties of Cr spinels containing S, Se and Te / 6.2.2.1:
Cd-Cr selenide spinel / 6.2.2.2:
Cd-Cr selenide spinel with substitutions / 6.2.2.4:
Cd-Cr sulfide spinel and substituted compounds / 6.2.2.5:
Hg-Cr selenide, Hg-Cr sulfide spinels and their substituted compounds / 6.2.2.6:
Cu-Cr S, Se and Te spinels / 6.2.2.7:
Cu-Cr S, Se and Te spinels with substitutions / 6.2.2.8:
Fe-Mn-, Co- and Zn-Cr S and Se spinels and their substituted compounds / 6.2.2.9:
References for 6.2.2.1 - 6.2.2.9 / 6.2.2.10:
Further spinels
V spinels and substituted V spinels / 6.3.1:
Ge spinels and substituted Ge spinels / 6.3.1.1:
Rh spinels and substituted Rh spinels / 6.3.3:
References to 6.3.1 - 6.3.3 / 6.3.4:
Al spinels and substituted Al spinels / 6.3.5:
Ga spinels and substituted Ga spinels / 6.3.6:
In spinels and substituted In spinels / 6.3.7:
References to 6.3.5 - 6.3.7 / 6.3.8:
Co spinels and substituted Co spinels / 6.3.9:
Ni spinels and substituted Ni spinels / 6.3.10:
Te spinels and substituted Te spinels / 6.3.11:
Mn spinels and substituted Mn spinels / 6.3.12:
Ti spinels and substituted Ti spinels / 6.3.13:
References to 6.3.9 - 6.3.13 / 6.3.14:
Mo spinels and substituted Mo spinels / 6.3.15:
W spinels and substituted W spinels / 6.3.16:
Nb spinels and substituted Nb spinels / 6.3.17:
Zr spinels / 6.3.18:
Sb spinels and substituted Sb spinels / 6.3.19:
Sn spinels and substituted Sn spinels / 6.3.20:
Si spinels and substituted Si spinels / 6.3.21:
References to 6.3.15 - 6.3.21 / 6.3.22:
Hexagonal ferrites / 7:
Quantities and units / 7.0:
List of symbols / 7.2:
Chemical compositions and phase diagrams of hexagonal ferrites / 7.3:
Crystal structures / 7.4:
Paramagnetic properties of ferrites with hexagonal crystal structures / 7.5:
M (magnetoplumbite)-type ferrites / 7.6:
Survey of the chemical substitutions in the M structure and room temperature lattice constants / 7.6.1:
Electric and dielectric properties / 7.6.2:
Môssbauer spectra, saturation magnetization, and Curie temperature / 7.6.3:
Magneto-crystalline anisotropy / 7.6.4:
Hysteresis properties / 7.6.6:
High-frequency magnetic properties / 7.6.7:
Magnetic spectrum / 7.6.7.1:
Line width of the ferromagnetic resonance / 7.6.7.2:
W-type ferrites / 7.7:
Survey of chemical substitutions in the W structure / 7.7.1:
Saturation magnetization and Curie temperature / 7.7.2:
Magnetostriction / 7.7.4:
Y-type ferrites / 7.7.7:
Lattice parameters / 7.8.1:
Mössbauer spectra, saturation magnetization, spectroscopic splitting factor, and Curie temperature / 7.8.2:
Magneto-crystalline anisotropy derived from static measurements / 7.8.4:
Magneto-crystalline anisotropy field derived from the ferromagnetic resonance frequency / 7.8.4.2:
Magnetic spectrum of the initial permeability / 7.8.5:
Ferromagnetic resonance properties / 7.8.6.2:
Non-linear effects in the ferromagnetic resonance / 7.8.6.3:
Z-type ferrites / 7.9:
Resistivity / 7.9.1:
U-type ferrites / 7.9.3:
Calcium ferrites / 7.11:
References for 7 / 7.12:
Index of substances for III/4a and III/4b / 8:
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
60.
図書
K. Enke ... [et al.] ; Herausgeber, K.-H. Hellwege und A.M. Hellwege
目次情報:
続きを見る
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
Climate definition (See Vol.4C1)
Magnetic properties of 3d, 4d and 5d elements, alloys and compounds / Volume 4:
Introduction / 12:
Magnetic and Other Properties of Oxides and Related Compounds
General introduction / M. Hantel1.1-l1.4:
See Vol. 19A / Subvolume B:
General remarks / 6:
Climate modeling / A.R. Forrester
Alloys and compounds of 3d elements with main group elements / 1.2:
Literature covered and selection of data / W. Gräper12.1:
Nitroxide radicals
See Vol. 19B
Non-iron garnets / 1.3:
Arrangement of tables and data
3d elements and C, Si, Ge, Sn or Pb (Y. NAKAMURA) / 5.0:
Formal classification criteria
Nitroxides formed by trapping with nitrosoalkanes (See Vol.17D1) / 1.4:
Abbreviations and units used for presenting the data
Physical classification criteria / 6.3:
Nitroxides formed by trapping with nitrosoarenes, nitrosoheterocycles and nitroarenes (See Vol.17D1)
Magnetic susceptibility data / 1.5.4.2:
Indexes
Ti and V alloys and compounds / A:
Operational classification criteria
Nitroxides formed by trapping with acyclic nitrones / 1.6:
Paramagnetic susceptibility above the ordering temperature / 1.5.4.3:
List of symbols and units
Cr alloys and compounds / B:
References for 12
alpha-Phenyl N-t-butylnitrone / 1.7:
Susceptibility data at low temperatures in the vicinity of an ordering temperature / 1.5.4.4:
List of universal constants
Mn alloys and compounds / C:
alpha-Methylene-N-t-butyl nitrone / 1.8:
Summary of susceptibility parameters and transition temperatures / 1.5.4.5:
The present global surface climate
Glossary of general abbreviations
Fe alloys and compounds / 5.2:
N,N'-Di-t-butyl ethylidene dinitrone / 13.1:
Tables of nuclear quadrupole interaction parameters (See Vol.20A) / 1.5.4.5.1:
Magnetization / 6.4.4:
The earthÆs surface as part of the global climate system
Alloys and compounds with C and Si / 2.1:
Introductory remarks / 13.2:
alpha-4-(Pyridinyl-1-oxide)N-t-butyl nitrone
Crystallographic and structural data / 1.5.4.5.2:
Selected concepts in quantitative climate description
Nuclear constants of quadrupolar elements
Alloys and compounds with Ge
alpha-2- and 3-(Pyridinyl-1-oxide)N-t-butyl nitrones / 13.3:
Ratios of nuclear quadrupole moments of isotopic nuclides / 1.5.4.5.3:
Location and environment of ions in the unit cell of the garnet lattice / 6.4.6:
Quantitative respresentation of the global surface climate
Alloys and compounds with Sn / 2.4:
Values of <(a0 /r)3 > for the valence states of some neutral atoms / 13.4:
alpha-4-Pyridinyl and alpha-2,3 and 4-(N-alkylpyridinium) N-t-butyl nitrones
Oxygen coordinates, interionic spacings, and angles of compounds with garnet structure / 1.5.4.6:
Climate classification
Atomic quadrupole coupling constants of some elements
Co and Ni alloys and compounds
alpha-(2-Sulfonyloxyphenyl)N-t-butyl nitrone sodium salt / 13.5:
Sternheimer antishielding factor for atoms, free ions and ions in crystals / 1.5.4.7:
Lattice parameters and density of garnet systems / 6.4.8:
List of abbreviations used in chapter 13
MM'X ternary compounds / 2.7:
Transition frequencies between nuclear quadrupole energy levels / 13.6:
alpha-(2,4,6-Trimethoxyphenyl)N-t-butyl nitrone
Magnetic structure of DyAlG and ErGaG / 1.5.4.8:
References for 13
Eigenvalues for the nuclear quadrupole resonance spectra for I = 5/2
References for 1.5.4 / 5.4:
alpha-(2,6-Di-t-butyl-4-hydroxyphenyl)N-t-butyl nitrone / 14:
Specific Surfaces Climates (See Vol.4C1) / 1.5.5:
Eigenvalues for the nuclear quadrupole resonance spectra for I = 7/2
Results of magnetic resonance experiments / 6.4.10:
Heusler alloys (P.J. WEBSTER, K.R.A. ZIEBECK) / 15:
Climate variations (See Vol.4C1)
Eigenvalues for the nuclear quadrupole resonance spectra for I = 9/2
alpha-(p-Dodecyloxyphenyl)N-t-butyl nitrone
Paramagnetic resonance of rare earth impurities in diamagnetic garnets / 1.5.5.1:
The Planetary Boundary Layer (PBL) (See Vol.4C1)
Crystallographic structure
Nuclear quadrupole resonance data
Other alpha-aryl N-t-butyl nitrones
Paramagnetic resonance of impurities with d electrons in diamagnetic garnets / 1.5.5.1.1:
Chemical order
alpha-Phenyl N-(1,3-dioxanyl)nitrone
Paramagnetic resonance of impurities in paramagnetic garnets / 1.5.5.1.1.1:
General model
Resonance data tables
alpha(4-(N-Methylpyridinium))N-t-butyl nitrone
Deuterium - Chlorine (See Vol.20A) / 1.5.5.1.1.2:
Nuclear magnetic resonance experiments / 6.4.14:
Chlorine (continued) - Rubidium (See Vol.20B)
A statistical model / 5.5:
Other alpha-aryl nitrones / 50:
Results from optical spectra / 1.5.5.1.1.3:
Zirconium, Niobium, Molybdenum, Technetium
Preferential disorder
Other N-t-butyl nitrones / 51:
Crystal field analysis and parameters / 1.5.5.1.2:
Indium
Magnetic order
N-Cyanoisopropyl nitrones / 52:
Summary of references for some results from optical measurements / 1.5.5.1.2.1:
Antimony
Ferromagnetic order / 5.6:
alpha-Methylene and alpha-ethylene N-duryl nitrones / 53:
Spin-lattice relaxation of paramagnetic ions in garnets / 1.5.5.1.2.2:
- 55 Iodine
Antiferromagnetic order
Nitrones derived from sugars / 56:
Cesium / 1.5.5.2:
Bulk magnetic properties
Nitroxides formed by trapping with cyclic nitrones / 57:
Barium / 1.5.5.2.1:
5,5-Dimethyl-1-pyrroline N-oxide / 58:
The dependence of the spin-lattice relaxation time on magnetic field
Lanthanides / 1.5.5.2.2:
Ferromagnets X2 MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2 MnZ with X = 3d element
5-Heptyl-3,3,5-trimethyl-1-pyrroline N-oxide / 60:
Specific heat of rare earth gallium garnets
Rhenium / 1.5.5.2.2.2:
X2 MnZ with X = 4d element
5-Hexadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 61:
Specific heat of two rare earth aluminium garnets
Gold / 1.5.5.2.3:
Antiferromagnets X2 MnZ
5-Octadecyl-3,3,5-trimethyl-1-pyrroline N-oxide / 62:
Faraday rotation in paramagnetic non-iron garnets
Mercury / 1.5.5.2.3.1:
4,5,5-Trimethyl-1-pyrroline N-oxide / 63:
Magnetomechanical properties
Bismuth / 1.5.5.2.3.2:
3,5,5-Trimethyl-1-pyrroline N-oxide / 4:
Magnetostriction of rare earth gallates and germanates with a garnet structure
Diagrams of NQR frequencies and related properties / 1.5.5.2.3.3:
X2 MnZ with X = 5d element
2,5,5-Trimethyl-1-pyrroline N-oxide / 4.1:
Macroscopic magnetoelastic tensors for paramagnetic rare earth ions in diamagnetic garnet hosts
Ferromagnets X2 YZ for Y other than Mn / 1.5.5.2.4:
Other 5,5-dialkyl-1-pyrroline N-oxides / 4.2:
Magnetoacoustic properties
Diagrams / 1.5.5.2.4.1:
Co2 YZ with Y = 4A, 5A element
2,2,5,5-Tetramethyl-3-imidazoline N-oxides / 4.3:
Neutron diffraction results near and below the magnetic ordering point
References for chapter 4 / 1.5.5.2.4.2:
Co2 YZ with Y = 6A, 7A element
4-Methoxycarbonyl-3,3,5,5-tetra-alkyl-1-pyrroline N-oxide
References
Structure formulas / 1.5.5.2.4.3:
Fe2 YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2 FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Index of gross molecular formulas / 1.5.5.2.4.5:
Mn2 VZ
Cyclic dialkyl nitroxides
Spinels
Index of substance names / 1.5.5.2.5:
Arrangement
Paramagnets X2 YZ with X, Y = 3d element
Aziridinyl 1-oxyls
Index of CAS registry numbers / B.A. Calhoun6.0:
Quaternary alloys
Azetidinyl 1-oxyls
Errata / 1.5.5.2.6.1:
Corrections (See Vol.31B) / 6.7.3:
(XX*)2 MnSn with X, X* 3d elements / 6.0.1:
Pyrrolidinyl-1-oxyls
Ni2 (YY*)Sn with Y, Y* = 3d elements / 1.5.5.2.6.2:
Pyrrolinyl-1-oxyls
Structure / 1.5.5.2.6.3:
(XX*)2 TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2 MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2 MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2 Mn (ZZ*) / 6.1.0.1:
Isoindolinyl-oxyls
A-B exchange interaction; magnetization / 1.5.5.2.7:
Clb Intermetallic compounds XYZ / 6.1.0.2:
Oxaindolinyl-oxyls
A-A, B-B exchange interaction; magnetic order / 1.5.5.2.7.1:
Ferromagnets XMnZ with X = 3d element / 6.1.0.3:
Piperidinyl-1-oxyls
Hyperfine interactions (Môssbauer and NMR methods) / 1.5.5.2.7.2:
Ferromagnets XMnZ with X = 4d, 5d element / 6.1.0.4:
Tetrahydropyridinyl-1-oxyls
Anisotropy / 1.5.5.2.7.3:
Ferromagnets - paramagnets XYSb for Y other than Mn / 6.1.0.5:
Diaza- and triaza-cyclohexyl- and -cyclohexenyl-1-oxyls
Ferrimagnetic resonance / 1.5.5.2.7.4:
Antiferromagnets XMnZ with X = 3d, 4d, 5d element / 6.1.0.6:
Oxazinyl-1-oxyls
Accuracy / 1.5.5.2.7.5:
Quaternary alloys (XX*)MnSb with X, X* = 3d, 4d, 5d elements / 6.1.0.7:
1,4 Azaphosphacyclohexyl-1-oxyls
References for 6.0 and 6.1.0 / 1.5.5.2.7.6:
X2-x MnSb with X = 3d, 4d element / 6.1.1:
Azepinyl-1-oxyls and macrocyclic N-oxyls
Neutron diffraction and magnetic order / 1.5.5.3:
Bicyclic nitroxides
Alkyl, aryl and vinyl nitroxides / R.A. Lefever1.5.5.3.1:
Neutron diffraction theory / 1.5.5.3.2:
Aryl, diaryl and divinylnitroxides
Tables and figures / 1.5.5.3.3:
Magnetic and chemical ordering data / 6.1.1.2:
Alkyl imidoyl and nitronyl nitroxides
References for 6.1.1.1 / 1.5.5.3.3.1:
Co2 MnZ / 6.1.2:
Acyl nitroxides
Ni2 MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2 MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2 MnZ / 1.5.5.3.3.4:
Thio and sulfonyl nitroxides
Clb compounds XYZ / 1.5.5.3.3.5:
Phospho nitroxides
Polarized neutron measurements on single crystals / 1.5.5.3.4:
Other nitroxides
References for 6.4 - 6.16 / 1.5.5.3.4.1:
X2 MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3 Z / 6.1.2.3:
General symbols and abbreviations
Index of Substances (See Vol.17H) / 1.5.5.3.4.3:
Ni ferrite with Co substitutions
Fe3-x Mnx Si / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2 YZ with Y = 3d element / 6.1.2.5:
Ge substituted Ni ferrite / 1.5.5.4:
Dynamics / 6.1.2.6:
Ni ferrite chromite / 1.5.5.4.1:
Lattice dynamics / 6.1.2.7:
Ni ferrite vanadate / 1.5.5.4.2:
Phase transitions / 6.1.2.8:
Ni ferrite aluminate / 1.5.5.4.3:
Spin dynamics / 6.1.2.9:
Ni gallate ferrite / 1.5.5.5:
Electrical properties / 6.1.2.10:
References for 6.1.2.0 - 6.1.2.9 / 1.5.5.5.1:
Electrical resistivity / 6.1.3:
Magnetoresistance / 1.5.5.5.2:
Hall effect / R. Vautier ; M. Paulus1.5.5.5.3:
Thermoelectric power / 1.5.5.5.4:
Thermal properties / 1.5.5.6:
Phase equilibria and structure / 1.5.5.6.1:
Specific heat / 6.1.3.1.1:
Phase equilibria / 1.5.5.6.1.1:
Cu2 MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-x Alx / 6.1.3.1.4:
Ionic distribution / 1.5.5.6.2:
Superconductivity / 6.1.3.1.5:
Spin arrangement / 1.5.5.7:
Hyperfine fields / 6.1.3.2:
Mössbauer spectra of Sn-doped alloys (119 Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2 Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2 MnSb, XMnSb with X = 8A element / 6.1.3.2.4:
Diffusion and oxidation coefficients / 1.5.5.7.3:
Mössbauer spectra of Sb-based alloys (121 Sb), X2 MnSb, XMnSb with X = 1B, 8A element / 6.1.3.2.5:
Ferrite thermodynamics / 1.5.5.7.4:
Mössbauer <$$$> element / 6.1.3.2.6:
Solid crystal growth / 1.5.5.7.5:
D03 , compounds Fe3 Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03 -L21 compounds Fe3-x Yx Si with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5 V0.5-x Alx / 6.1.3.4:
References for 1.5.5 / 1.5.5.8:
Metallic perovskites (PH. L'HÉRITIER, D. FRUCHART, R. MADAR, R. FRUCHART) / 1.5.6:
Magnetoresistance and thermomagnetic effect / 1.5.6.1:
Crystallographic properties of Mc XMf 3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of Mc XMf 3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
Mc XTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
Mc XCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
Mc XM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
Mc XFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
Mc XCo3 / 6.1.3.6:
Magnetocrystalline anisotropy / 1.5.6.3.6:
Mc XNi3 / 6.1.3.6.1:
Magnetocrystalline anisotropy in Mn ferrite / 1.5.6.4:
References for 1.5.6 / 6.1.3.6.2:
Magnetocrystalline anisotropy in Mn ferrite with substitutions
Alloys and compounds of 4d or 5d elements with main group elements (S. MISAWA, K. KANEMATSU) / 6.1.3.6.3:
Linear magnetostriction / 1.6.1:
Magnetic annealing / 6.1.3.6.4:
Alloys and compounds of Zr / 6.1.3.7:
Domains and domain walls / 1.6.2.1:
ZrHx / 6.1.3.7.1:
Domain wall motion experiments / 1.6.2.2:
ZrCuAl / 6.1.3.7.2:
Domain structure / 1.6.2.3:
ZrZn2 / 6.1.3.8:
Response of magnetization to a field / 1.6.2.4:
Other compounds of Zr / 6.1.3.8.1:
High temperature susceptibility / 1.6.3:
Alloys and compounds of Nb / 6.1.3.8.2:
High field susceptibility in the ferrimagnetic state / 1.6.3.1:
Nb4 hydride / 6.1.3.8.3:
Permeability variation with composition, impurities, irradiation, and grain size / 1.6.3.2:
A15 and sigma-phase alloys of Nb / 6.1.3.8.4:
Permeability vs. temperature / 1.6.3.3:
Nb carbides / 6.1.3.8.5:
Permeability vs. pressure / 1.6.3.4:
Nb nitride / 6.1.3.8.6:
Permeability vs. frequency / 1.6.3.5:
Nb chalcogenides / 6.1.3.8.7:
After-effect, disaccommodation, and viscosity / 1.6.4:
Alloys and compounds of Mo / 6.1.3.9:
Microwave properties / 1.6.4.1:
Mo borides / 6.1.3.9.1:
Resonance line width / 1.6.4.2:
MoAlGe / 6.1.3.9.2:
Spectroscopic splitting factor / 1.6.4.3:
Mo carbides / 6.1.3.10:
Optical properties (absorption) / 1.6.4.4:
Mo chalcogenides / 6.1.3.11:
References for 6.1.3.0 - 6.1.3.10 / 1.6.5:
Compounds of Ru / 6.1.4:
Alloys of Rh / 1.6.6:
Alloys and compounds of Pd / C.J. Kriessman ; A.P. Greifer1.6.7:
Pd hydrides / 1.6.7.1:
Pd-Li and Pd-Na compounds / 1.6.7.2:
fcc alloys of Pd / 1.6.7.3:
MgMn ferrites and MgMn ferrites with substitutions / 1.6.7.4:
Other compounds of Pd / 6.1.4.2.0:
Alloys and compounds of Hf / 1.6.8:
Crystallographic properties, physical properties, phase data, magnetic moments / 1.6.8.1:
Hf hydrides / 6.1.4.2.2:
HfZn2 / 1.6.8.2:
Losses / 1.6.8.3:
Hf carbides / 6.1.4.2.4:
Square-loop properties / 1.6.8.4:
Hf chalcogenides / 6.1.4.2.5:
Alloys and compounds of Ta / 1.6.9:
Other ferrite systems containing Mg / 1.6.9.1:
Ta hydrides / 6.1.4.3.0:
Ta carbides / 1.6.9.2:
Ta chalcogenides / 1.6.9.3:
Alloys and compounds of W / 1.6.10:
W borides / 1.6.10.1:
WP / 6.1.4.3.3:
W chalcogenides / 1.6.10.3:
Alloys and compounds of Re / 1.6.11:
Compounds of Os / 1.6.12:
Alloys and compounds of Pt / 1.6.13:
Pt-Li and Pt-Na compounds / 6.1.4.3.6:
fcc alloys of Pt / 1.6.13.2:
Other systems containing trivalent and higher valency cations / 6.1.4.3.7:
Other compounds of Pt
References for 1.6 / 6.1.4.3.8:
References for 6.1.4.1 - 6.1.4.3 / 6.1.4.4:
Zn, Zn-Fe, Zn-Ti, Zn-Li, Zn-Ti-Li, Zn-Cd, Zn-Mg, Zn-Co, and Zn-Cu ferrites / V.J. Folen6.1.5:
Zn-Ni, Zn-Ni-Ge, and Zn-Ni-Sb ferrites / 6.1.5.2:
References for 6.1.5.1 and 6.1.5.2 / 6.1.5.3:
Li ferrite / 6.1.6:
Li-Cr ferrites / 6.1.6.2:
Li-Zn, Li-Zn-Co, Li-Ti, Li-Zn-Ti, and Li-Zn-Ti-Al-Mn ferrites / 6.1.6.3:
Li-A1, Li-Ga, Li-Cd ferrites and Li-Fe ferrites / 6.1.6.4:
Li-Mn, Li-V, and Li-Ge ferrites / 6.1.6.5:
References for 6.1.6.1 - 6.1.6.5 / 6.1.6.6:
Cu-Zn and Cu-Cd ferrites / 6.1.7:
Cu-Cr ferrites / 6.1.7.3:
Cu-Mg ferrites / 6.1.7.4:
Other ferrites, oxide compounds, and oxide mixtures containing Cu / 6.1.7.5:
References for 6.1.7.1 - 6.1.7.5 / 6.1.7.6:
Co ferrite / 6.1.8:
Co ferrite and Co-Fe mixed oxides / 6.1.8.2:
Co-Zn ferrites / 6.1.8.3:
Co-Cd, Co-Mg, Co-Ni, and Co-Cr ferrites / 6.1.8.4:
References for 6.1.8.1 - 6.1.8.4 / 6.1.8.5:
Cr spinels
Cr oxide-spinels / D. Bonnenberg ; H.P.J. Wijn6.2.1:
Binary Cr oxide-spinels / 6.2.1.1:
Ternary and quarternary Cr oxide-spinels / 6.2.1.2:
References to 6.2.1.1 and 6.2.1.2 / 6.2.1.3:
Cr sulfide, selenide and telluride spinels / G.H. Stauss6.2.2:
Comparison of the crystallographic, electrical, and magnetic properties of Cr spinels containing S, Se and Te / 6.2.2.1:
Cd-Cr selenide spinel / 6.2.2.2:
Cd-Cr selenide spinel with substitutions / 6.2.2.4:
Cd-Cr sulfide spinel and substituted compounds / 6.2.2.5:
Hg-Cr selenide, Hg-Cr sulfide spinels and their substituted compounds / 6.2.2.6:
Cu-Cr S, Se and Te spinels / 6.2.2.7:
Cu-Cr S, Se and Te spinels with substitutions / 6.2.2.8:
Fe-Mn-, Co- and Zn-Cr S and Se spinels and their substituted compounds / 6.2.2.9:
References for 6.2.2.1 - 6.2.2.9 / 6.2.2.10:
Further spinels
V spinels and substituted V spinels / 6.3.1:
Ge spinels and substituted Ge spinels / 6.3.1.1:
Rh spinels and substituted Rh spinels / 6.3.3:
References to 6.3.1 - 6.3.3 / 6.3.4:
Al spinels and substituted Al spinels / 6.3.5:
Ga spinels and substituted Ga spinels / 6.3.6:
In spinels and substituted In spinels / 6.3.7:
References to 6.3.5 - 6.3.7 / 6.3.8:
Co spinels and substituted Co spinels / 6.3.9:
Ni spinels and substituted Ni spinels / 6.3.10:
Te spinels and substituted Te spinels / 6.3.11:
Mn spinels and substituted Mn spinels / 6.3.12:
Ti spinels and substituted Ti spinels / 6.3.13:
References to 6.3.9 - 6.3.13 / 6.3.14:
Mo spinels and substituted Mo spinels / 6.3.15:
W spinels and substituted W spinels / 6.3.16:
Nb spinels and substituted Nb spinels / 6.3.17:
Zr spinels / 6.3.18:
Sb spinels and substituted Sb spinels / 6.3.19:
Sn spinels and substituted Sn spinels / 6.3.20:
Si spinels and substituted Si spinels / 6.3.21:
References to 6.3.15 - 6.3.21 / 6.3.22:
Hexagonal ferrites / 7:
Quantities and units / 7.0:
List of symbols / 7.2:
Chemical compositions and phase diagrams of hexagonal ferrites / 7.3:
Crystal structures / 7.4:
Paramagnetic properties of ferrites with hexagonal crystal structures / 7.5:
M (magnetoplumbite)-type ferrites / 7.6:
Survey of the chemical substitutions in the M structure and room temperature lattice constants / 7.6.1:
Electric and dielectric properties / 7.6.2:
Môssbauer spectra, saturation magnetization, and Curie temperature / 7.6.3:
Magneto-crystalline anisotropy / 7.6.4:
Hysteresis properties / 7.6.6:
High-frequency magnetic properties / 7.6.7:
Magnetic spectrum / 7.6.7.1:
Line width of the ferromagnetic resonance / 7.6.7.2:
W-type ferrites / 7.7:
Survey of chemical substitutions in the W structure / 7.7.1:
Saturation magnetization and Curie temperature / 7.7.2:
Magnetostriction / 7.7.4:
Y-type ferrites / 7.7.7:
Lattice parameters / 7.8.1:
Mössbauer spectra, saturation magnetization, spectroscopic splitting factor, and Curie temperature / 7.8.2:
Magneto-crystalline anisotropy derived from static measurements / 7.8.4:
Magneto-crystalline anisotropy field derived from the ferromagnetic resonance frequency / 7.8.4.2:
Magnetic spectrum of the initial permeability / 7.8.5:
Ferromagnetic resonance properties / 7.8.6.2:
Non-linear effects in the ferromagnetic resonance / 7.8.6.3:
Z-type ferrites / 7.9:
Resistivity / 7.9.1:
U-type ferrites / 7.9.3:
Calcium ferrites / 7.11:
References for 7 / 7.12:
Index of substances for III/4a and III/4b / 8:
Introductory material / Group III:
Title Page, Preface
Condensed Matter / Landolt-Börnstein ; H. Fischer1:
61.
図書
International Water Supply Association. Congress ; International Water Supply Association
出版情報:
[London] : International Water Supply Association = Association Internationale des Distributions d'eau, [1978?] 1 v. (various pagings) ; 30 cm
子書誌情報:
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62.
図書
Edited by R. A. Ricci
63.
図書
Hauptredakteur dieser Lieferung, Krista v. Baczko
64.
図書
Japan-Germany Seminar (Iron and Steel Institute of Japan) ; 日本鉄鋼協会
出版情報:
Tokyo : The Iron and Steel Institute of Japan, 1976 199 p. ; 26cm
子書誌情報:
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65.
図書
Акутагава Рюноскэ
出版情報:
Москва : Изд-во "Худож. лит-ры", 1971 2 v. ; 21 cm
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66.
図書
J. Demaison ... [et al.] ; Hrsg., K.-H. Hellwege und A.M. Hellwege
目次情報:
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Introductory material
Introduction / B. Starck ; R. Tischer ; M. Winnewisser1:
Constants of diamagnetic molecules / 2:
Survey / 2.1:
Diatomic molecules: Rotational and related constants / 2.2:
Linear molecules: Rotational and related constants / J. Demaison2.3:
Symmetric top molecules: Rotational and related constants / Jn. Demaison2.4:
Asymmetric top molecules: Rotational and related constants / 2.5:
Dipole moments / 2.6:
Diatomic molecules / 2.6.1:
Linear and symmetric top molecules / 2.6.2:
Asymmetric top molecules / 2.6.3:
Quadrupole coupling constants / 2.7:
Hindered rotation / W. Hüttner2.7.1:
Magnetic constants / 2.9:
Figures / I. Buck2.9.1:
References for 2 and 3 / 4:
Constants of radicals / 5:
Diatomic radicals / 5.1:
Preliminary remarks / 5.1.1:
Triatomic radicals / 5.1.2:
Bent triatomic radicals / 5.2.0:
Appendix / 6:
Index of substances for volume II/4 and II/6 / 7:
Introductory material
Introduction / B. Starck ; R. Tischer ; M. Winnewisser1:
Constants of diamagnetic molecules / 2:
67.
学位
山口俊久
出版情報:
東京 : 東京工業大学, 1979
子書誌情報:
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68.
図書
edited by Saul Patai
69.
図書
L. De Vries, H. Kolb
出版情報:
Weinheim ; New York : Verlag Chemie, 1978-1979 2 v. ; 25 cm
子書誌情報:
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目次情報:
Bd. 1. Deutsch/Englisch
Bd. 2. English/Deutsch
Bd. 1. Deutsch/Englisch
Bd. 2. English/Deutsch
70.
図書
edited by Paul D. Boyer
71.
雑誌
Chemical Society (Great Britain) ; Royal Society of Chemistry (Great Britain)
出版情報:
London : Chemical Society, 1972-c1999 v. ; 28-30 cm
巻次年月次:
1972 (1972)-1999, no. 12 (Dec. 1999)
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72.
図書
von Günter Koch
73.
図書
by Einar Hille
出版情報:
New York : Chelsea Pub. Co., 1973 2 v. ; 24 cm
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Number systems / 1:
The real number system / 1.1:
Further properties of real numbers / 1.2:
The complex number system 2. The complex plane / 1.3:
Geometry of complex numbers / 2.1:
Curves and regions in the complex plane / 2.2:
Regions and convexity / 2.3:
Paths / 2.4:
The extended plane; stereographic projection 3. Fractions, powers, and roots / 2.5:
Fractional linear transformations / 3.1:
Properties of Mobius transformations / 3.2:
Powers / 3.3:
Roots / 3.4:
The function $(z^2 +1)/(2z)$ 4. Holomorphic functions / 3.5:
Complex-valued functions and continuity / 4.1:
Differentiability; holomorphic functions / 4.2:
The Cauchy-Riemann equations / 4.3:
Laplace's equation / 4.4:
The inverse function / 4.5:
Conformal mapping / 4.6:
Function spaces 5. Power series / 4.7:
Infinite series / 5.1:
Operations on series / 5.2:
Double series / 5.3:
Convergence of power series / 5.4:
Power series as holomorphic functions / 5.5:
Taylor's series / 5.6:
Singularities; noncontinuable power series 6. Some elementary functions / 5.7:
The exponential function / 6.1:
The logarithm / 6.2:
Arbitrary powers; the binomial series / 6.3:
The trigonometric functions / 6.4:
Inverse trigonometric functions 7. Complex integration / 6.5:
Integration in the complex plane / 7.1:
Cauchy's theorem / 7.2:
Extensions / 7.3:
Cauchy's integral / 7.4:
Cauchy's formulas for the derivatives / 7.5:
Integrals of the Cauchy type / 7.6:
Analytic continuation: Schwarz's reflection principle / 7.7:
The theorem of Morera / 7.8:
The maximum principle / 7.9:
Uniformly convergent sequences of holomorphic functions 8. Representation theorems / 7.10:
The maximum modulus / 8.1:
The Laurent expansion / 8.3:
Isolated singularities / 8.4:
Meromorphic functions / 8.5:
Infinite products / 8.6:
Entire functions / 8.7:
The Gamma function 9. The calculus of residues / 8.8:
The residue theorem / 9.1:
The principle of the argument / 9.2:
Summation and expansion theorems / 9.3:
Inverse functions / 9.4:
Some properties of point sets / Appendix A:
Some properties of polygons / Appendix B:
On the theory of integration / Appendix C:
Bibliography
Index
Number systems / 1:
The real number system / 1.1:
Further properties of real numbers / 1.2:
74.
図書
H. Genzel, P. Joos, W. Pfeil ; Hrsg., H. Schopper
目次情報:
続きを見る
Introductory material
Photoproduction below 1.5 GeV / H. Genzel ; W. Pfeil1:
Introduction / 1.0:
Compton scattering / 1.1:
gamma + p -> gamma + p / 1.1.1:
gamma + d -> gamma + d / 1.1.2:
Photoproduction of pions and eta mesons / 1.2:
gamma + p -> (pi+) + n / 1.2.1:
gamma + p -> (pi0) + p / 1.2.2:
gamma + n -> (pi-) + p / 1.2.3:
gamma + n -> (pi0) + n / 1.2.4:
gamma + d -> (pi0) + d / 1.2.5:
gamma + p -> eta + p / 1.2.6:
Photoproduction of K mesons / 1.3:
gamma + p -> (K+) + Lambda / 1.3.1:
gamma + p -> (K+) + (Sigma0) / 1.3.2:
Photoproduction above the resonance region (above 1.5 GeV) / P. Joos2:
Total cross sections / 2.0:
Photoproduction of non-strange pseudoscalar mesons / 2.2:
Photoproduction of vector mesons / 2.4:
Photoproduction of baryon resonances / 2.5:
Photoproduction of strange particles / 2.6:
References for 2 / 2.7:
Introductory material
Photoproduction below 1.5 GeV / H. Genzel ; W. Pfeil1:
Introduction / 1.0:
75.
図書
Huibert Kwakernaak, Raphael Sivan
出版情報:
New York : Wiley Interscience, c1972 xxv, 575 p. ; 24 cm
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Notation and Symbols
Elements of Linear System Theory / Chapter 1:
Introduction / 1.1:
State Description of Linear Systems / 1.2:
State Description of Nonlinear and Linear Differential Systems / 1.2.1:
Linearization / 1.2.2:
Examples / 1.2.3:
State Transformations / 1.2.4:
Solution of the State Differential Equation of Linear Systems / 1.3:
The Transition Matrix and the Impulse Response Matrix / 1.3.1:
The Transition Matrix of a Time-Invariant System / 1.3.2:
Diagonalization / 1.3.3:
The Jordan Form / 1.3.4:
Stability / 1.4:
Definitions of Stability / 1.4.1:
Stability of Time-Invariant Linear Systems / 1.4.2:
Stable and Unstable Subspaces for Time-Invariant Linear Systems / 1.4.3:
Investigation of the Stability of Nonlinear Systems through Linearization / 1.4.4:
Transform Analysis of Time-Invariant Systems / 1.5:
Solution of the State Differential Equation through Laplace Transformation / 1.5.1:
Frequency Response / 1.5.2:
Zeroes of Transfer Matrices / 1.5.3:
Interconnections of Linear Systems / 1.5.4:
Root Loci / 1.5.5:
Controllability / 1.6:
Definition of Controllability / 1.6.1:
Controllability of Linear Time-Invariant Systems / 1.6.2:
The Controllable Subspace / 1.6.3:
Stabilizability / 1.6.4:
Controllability of Time-Varying Linear Systems / 1.6.5:
Reconstructibility / 1.7:
Definition of Reconstructibility / 1.7.1:
Reconstructibility of Linear Time-Invariant Systems / 1.7.2:
The Unreconstructible Subspace / 1.7.3:
Detectability / 1.7.4:
Reconstructibility of Time-Varying Linear Systems / 1.7.5:
Duality of Linear Systems / 1.8:
Phase-Variable Canonical Forms / 1.9:
Vector Stochastic Processes / 1.10:
Definitions / 1.10.1:
Power Spectral Density Matrices / 1.10.2:
The Response of Linear Systems to Stochastic Inputs / 1.10.3:
Quadratic Expressions / 1.10.4:
The Response of Linear Differential Systems to White Noise / 1.11:
White Noise / 1.11.1:
Linear Differential Systems Driven by White Noise / 1.11.2:
The Steady-State Variance Matrix for the Time-Invariant Case / 1.11.3:
Modeling of Stochastic Processes / 1.11.4:
Quadratic Integral Expressions / 1.11.5:
Problems / 1.12:
Analysis of Linear Control Systems / Chapter 2:
The Formulation of Control Problems / 2.1:
The Formulation of Tracking and Regulator Problems / 2.2.1:
The Formulation of Terminal Control Problems / 2.2.3:
Closed-Loop Controllers / 2.3:
The Basic Design Objective
The Stability of Control Systems / 2.4:
The Steady-State Analysis of the Tracking Properties / 2.5:
The Steady-State Mean Square Tracking Error and Input / 2.5.1:
The Single-Input Single-Output Case / 2.5.2:
The Multiinput Multioutput Case / 2.5.3:
The Transient Analysis of the Tracking Properties / 2.6:
The Effects of Disturbances in the Single-Input Single-Output Case / 2.7:
The Effects of Observation Noise in the Single-Input Single-Output Case / 2.8:
The Effect of Plant Parameter Uncertainty in the Single-Input Single-Output Case / 2.9:
The Open-Loop Steady-State Equivalent Control Scheme / 2.10:
Conclusions / 2.11:
Optimal Linear State Feedback Control Systems / 2.12:
Stability Improvement of Linear Systems by State Feedback / 3.1:
Linear State Feedback Control / 3.2.1:
Conditions for Pole Assignment and Stabilization / 3.2.2:
The Deterministic Linear Optimal Regulator Problem / 3.3:
Solution of the Regulator Problem / 3.3.1:
Derivation of the Riccati Equation / 3.3.3:
Steady-State Solution of the Deterministic Linear Optimal Regulator Problem / 3.4:
Introduction and Summary of Main Results / 3.4.1:
Steady-State Properties of Optimal Regulators / 3.4.2:
Steady-State Properties of the Time-Invariant Optimal Regulator / 3.4.3:
Solution of the Time-Invariant Regulator Problem by Diagonalization / 3.4.4:
Numerical Solution of the Riccati Equation / 3.5:
Direct Integration / 3.5.1:
The Kalman-Englar Method / 3.5.2:
Solution by Diagonalization / 3.5.3:
Solution by the Newton-Raphson Method / 3.5.4:
Stochastic Linear Optimal Regulator and Tracking Problems / 3.6:
Regulator Problems with DisturbancesThe Stochastic Regulator Problem / 3.6.1:
Stochastic Tracking Problems / 3.6.2:
Solution of the Stochastic Linear Optimal Regulator Problem / 3.6.3:
Regulators and Tracking Systems with Nonzero Set Points and Constant Disturbances / 3.7:
Nonzero Set Points / 3.7.1:
Constant Disturbances / 3.7.2:
Asymptotic Properties of Time-Invariant Optimal Control Laws / 3.8:
Asymptotic Behavior of the Optimal Closed-Loop Poles / 3.8.1:
Asymptotic Properties of the Single-Input Single-Output Nonzero Set Point Regulator / 3.8.2:
The Maximally Achievable Accuracy of Regulators and Tracking Systems / 3.8.3:
Sensitivity of Linear State Feedback Control Systems / 3.9:
Optimal Linear Reconstruction of the State / 3.10:
Observers / 4.1:
Full-Order Observers / 4.2.1:
Conditions for Pole Assignment and Stabilization of Observers / 4.2.2:
Reduced-Order Observers / 4.2.3:
The Optimal Observer / 4.3:
A Stochastic Approach to the Observer Problem / 4.3.1:
The Nonsingular Optimal Observer Problem with Uncorretated State Excitation and Observation Noises / 4.3.2:
The Nonsingular Optimal Observer Problem with Correlated State Excitation and Observation Noises / 4.3.3:
The Time-Invariant Singular Optimal Observer Problem / 4.3.4:
The Colored Noise Observation Problem / 4.3.5:
Innovations / 4.3.6:
The Duality of the Optimal Observer and the Optimal Regulator / 4.4:
Steady-State Properties of the Optimal Observer
The Duality of the Optimal Regulator and the Optimal Observer Problem / 4.4.1:
Asymptotic Properties of Time-Invariant Steady-State Optimal Observers / 4.4.3:
Optimal Linear Output Feedback Control Systems / 4.5:
The Regulation of Linear Systems with Incomplete Measurements / 5.1:
The Structure of Output Feedback Control Systems / 5.2.1:
Conditions for Pole Assignment and Stabilization of Output Feedback Control Systems / 5.2.2:
Optimal Linear Regulators with Incomplete and Noisy Measurements / 5.3:
Problem Formulation and Solution / 5.3.1:
Evaluation of the Performance of Optimal Output Feedback Regulators / 5.3.2:
Proof of the Separation Principle / 5.3.3:
Linear Optimal Tracking Systems with Incomplete and Noisy Measurements / 5.4:
Sensitivity of Time-Invariant Optimal Linear Output Feedback Control Systems / 5.5:
Linear Optimal Output Feedback Controllers of Reduced Dimensions / 5.7:
Controllers of Reduced Dimensions / 5.7.1:
Numerical Determination of Optimal Controllers of Reduced Dimensions / 5.7.3:
Linear Optimal Control Theory for Discrete-Time Systems / 5.8:
Theory of Linear Discrete-Time Systems / 6.1:
State Description of Linear Discrete-Time Systems / 6.2.1:
Interconnections of Discrete-Time and Continuous-Time Systems / 6.2.3:
Solution of State Difference Equations / 6.2.4:
Transform Analysis of Linear Discrete-Time Systems / 6.2.5:
Duality / 6.2.7:
Discrete-Time Vector Stochastic Processes / 6.2.10:
Linear Discrete-Time Systems Driven by White Noise / 6.2.12:
Analysis of Linear Discrete-Time Control Systems / 6.3:
Discrete-Time Linear Control Systems / 6.3.1:
The Steady-State and the Transient Analysis of the Tracking Properties / 6.3.3:
Further Aspects of Linear Discrete-Time Control System Performance / 6.3.4:
Optimal Linear Discrete-Time State Feedback Control Systems / 6.4:
Stability Improvement by State Feedback / 6.4.1:
The Linear Discrete-Time Optimal Regulator Problem / 6.4.3:
Steady-State Solution of the Discrete-Time Regulator Problem / 6.4.4:
The Stochastic Discrete-Time Linear Optimal Regulator / 6.4.5:
Linear Discrete-Time Regulators with Non-zero Set Points and Constant Disturbances / 6.4.6:
Sensitivity / 6.4.7:
Optimal Linear Reconstruction of the State of Linear Discrete-Time Systems / 6.5:
The Formulation of Linear Discrete- / 6.5.1:
Notation and Symbols
Elements of Linear System Theory / Chapter 1:
Introduction / 1.1:
76.
EB
C. Radhakrishna Rao
目次情報:
続きを見る
Algebra of Vectors and Matrices / Chapter 1:
Vector Spaces
Definition of Vector Spaces and Subspaces / 1a.1:
Basis of a Vector Space / 1a.2:
Linear Equations / 1a.3:
Vector Spaces with an Inner Product / 1a.4:
Complements and Problems
Theory of Matrices and Determinants / lb:
Matrix Operations / 1b.1:
Elementary Matrices and Diagonal Reduction of a Matrix / 1b.2:
Determinants / 1b.3:
Transformations / 1b.4:
Generalized Inverse of a Matrix / 1b.5:
Matrix Representation, of Vector Spaces, Bases, etc / 1b.6:
Idempotent Matrices / 1b.7:
Special Products of Matrices / 1b.8:
Eigenvalues and Reduction of Matrices / 1c:
Classification and Transformation of Quadratic Forms / 1c.1:
Roots of Determinantal Equations / 1c.2:
Canonical Reduction of Matrices / 1c.3:
Projection Operator / 1c.4:
Further Results on g-Inverse / 1c.5:
Restricted Eigenvalue Problem / 1c.6:
Convex Sets in Vector Spaces / 1d:
Definitions / 1d.1:
Separation Theorems for Convex Sets / 1d.2:
Inequalities / 1e:
Cauchy-Schwarz (C-S) Inequality / 1e.1:
Holder?s Inequality / 1e.2:
Hadamard?s Inequality / 1e.3:
Inequalities Involving Moments / 1e.4:
Convex Functions and Jensen?s Inequality / 1e.5:
Inequalities in Information Theory / 1e.6:
Stirling?s Approximation / 1e.7:
Extrema of Quadratic Forms / 1f:
General Results / 1f.1:
Results Involving Eigenvalues and Vectors / 1f.2:
Minimum Trace Problems / 1f.3:
Probability Theory, Tools and Techniques / Chapter 2:
Calculus of Probability / 2a:
The Space of Elementary Events / 2a.l:
The Class of Subsets (Events) / 2a.2:
Probability as a Set Function / 2a.3:
Borel Field (&sigma-field) and Extension of Probability Measure / 2a.4:
Notion of a Random Variable and Distribution Function / 2a.5:
Multidimensional Random Variable / 2a.6:
Conditional Probability and Statistical Independence / 2a.7:
Conditional Distribution of a Random Variable / 2a.8:
Mathematical Expectation and Moments of Random Variables / 2b:
Properties of Mathematical Expectation / 2b.1:
Moments, 2b.3 Conditional Expectation / 2b.2:
Characteristic Function (c.f.) / 2b.4:
Inversion Theorems / 2b.5:
Multivariate Moments / 2b.6:
Limit Theorems / 2c:
Kolmogorov Consistency Theorem / 2c.1:
Convergence of a Sequence of Random Variables / 2c.2:
Law of Large Numbers / 2c.3:
Convergence of a Sequence of Distribution Functions / 2c.4:
Central Limit Theorems / 2c.5:
Sums of Independent Random Variables / 2c.6:
Family of Probability Measures and Problems of Statistics / 2d:
Family of Probability Measures / 2d.1:
The Concept of a Sufficient Statistic / 2d.2:
Characterization of Sufficiency / 2d.3:
Stieltjes and Lebesgue Integrals / Appendix 2A:
Some Important Theorems in Measure Theory and Integration / Appendix 2B:
Invariance / Appendix 2C:
Statistics, Subfields, and Sufficiency / Appendix 2D:
Non-Negative Definiteness of a Characteristic Function / Appendix 2E:
Complements and ProblemsChapter 3: Continuous Probability Models
Univariate Models / 3a:
Normal Distribution / 3a.1:
Gamma Distribution / 3a.2:
Beta Distribution / 3a.3:
Cauchy Distribution / 3a.4:
Student?s t Distribution / 3a.5:
Distributions Describing Equilibrium States in Statistical Mechanics / 3a.6:
Distribution on a Circle / 3a.7:
Sampling Distributions / 3b:
Definitions and Results / 3b.1:
Sum of Squares of Normal Variables / 3b.2:
Joint Distribution of the Sample Mean and Variance / 3b.3:
Distribution of Quadratic Forms / 3b.4:
Three Fundamental Theorems of the least Squares Theory / 3b.5:
The p-Variate Normal Distribution / 3b.6:
The Exponential Family of Distributions / 3b.7:
Symmetric Normal Distribution / 3c:
Definition / 3c.1:
Bivariate Normal Distribution / 3c.2:
General Properties / 3d.1:
The Theory of least Squares and Analysis of Variance / 3d.2:
Theory of least Squares / Linear Estimation)4a:
Gauss-Markoff Setup (Y, Xβ, σ2 I) / 4a.1:
Normal Equations and least Squares (l.s.) Estimators / 4a.2:
g-Inverse and a Solution of the Normal Equation / 4a.3:
Variances and Covariances of l.s. Estimators / 4a.4:
Estimation of σ2 / 4a.5:
Other Approaches to the l.s. Theory / Geometric Solution)4a.6:
Explicit Expressions for Correlated Observations / 4a.7:
Some Computational Aspects of the l.s. Theory / 4a.8:
least Squares Estimation with Restrictions on Parameters / 4a.9:
Simultaneous Estimation of Parametric Functions / 4a.10:
least Squares Theory when the Parameters Are Random Variables / 4a.11:
Choice of the Design Matrix / 4a.12:
Tests of Hypotheses and Interval Estimation / 4b:
Single Parametric Function (Inference) / 4b.1:
More than One Parametric Function (Inference) / 4b.2:
Setup with Restrictions / 4b.3:
Problems of a Single Sample / 4c:
The Test Criterion / 4c.1:
Asymmetry of Right and left Femora (Paired Comparison) / 4c.2:
One-Way Classified Data / 4d:
An Example / 4d.1:
Two-Way Classified Data / 4e:
Single Observation in Each Cell / 4e.1:
Multiple but Equal Numbers in Each Cell / 4e.2:
Unequal Numbers in Cells / 4e.3:
A General Model for Two-Way Data and Variance Components / 4f:
A General Model / 4f.1:
Variance Components Model / 4f.2:
Treatment of the General Model / 4f.3:
The Theory and Application of Statistical Regression / 4g:
Concept of Regression (General Theory) / 4g.1:
Measurement of Additional Association / 4g.2:
Prediction of Cranial Capacity (a Practical Example) / 4g.3:
Test for Equality of the Regression Equations / 4g.4:
The Test for an Assigned Regression Function / 4g.5:
Restricted Regression / 4g.6:
The General Problem of least Squares with Two Sets of Parameters / 4h:
Concomitant Variables / 4h.1:
Analysis of Covariance / 4h.2:
An Illustrative Example / 4h.3:
Unified Theory of Linear Estimation / 4i:
A Basic Lemma on Generalized Inverse / 4i.1:
The General Gauss-Markoff Model (GGM) / 4i.2:
The Inverse Partitioned Matrix (IPM) Method / 4i.3:
Untried Theory of Least Squares / 4i.4:
Estimation of Variance Components / 4j:
Minque Theory / 4j.1:
Computation under the Euclidian Norm / 4j.3:
Biased Estimation in Linear Models / 4k:
Best Linear Estimator (BLE) / 4k.1:
Best Linear Minimum Bias Estimation (BLIMBE) Complements and Problems / 4k.2:
Criteria and Methods of Estimation / Chapter 5:
Minimum Variance Unbiased Estimation / 5a:
Minimum Variance Criterion / 5a.1:
Some Fundamental Results on Minimum Variance Estimation / 5a.2:
The Case of Several Parameters / 5a.3:
Fisher?s Information Measure / 5a.4:
An Improvement of Un-biased Estimators / 5a.5:
General Procedures / 5b:
Statement of the General Problem (Bayes Theorem) / 5b.1:
Joint d.f. of (&Teata;, x) Completely Known / 5b.2:
The Law of Equal Ignorance / 5b.3:
Empirical Bayes Estimation Procedures / 5b.4:
Fiducial Probability / 5b.5:
Minimax Principle / 5b.6:
Principle of Invariance / 5b.7:
Criteria of Estimation in Large Samples / 5c:
Consistency / 5c.1:
Efficiency / 5c.2:
Some Methods of Estimation in Large Samples / 5d:
Method of Moments / 5d.1:
Minimum Chi-Square and Associated Methods / 5d.2:
Maximum Likelihood / 5d.3:
Estimation of the Multinomial Distribution / 5e:
Nonparametric Case / 5e.1:
Parametric Case / 5e.2:
Estimation of Parameters in the General Case / 5f:
Assumptions and Notations / 5f.1:
Properties of m.l. Equation Estimators / 5f.2:
The Method of Scoring for the Estimation of Parameters, Complements and Problems / 5g:
Large Sample Theory and Methods / Chapter 6:
Some Basic Results / 6a:
Asymptotic Distribution of Quadratic Functions of Frequencies / 6a.1:
Some Convergence Theorems / 6a.2:
Chi-Square Tests for the Multinomial Distribution / 6b:
Test of Departure from a Simple Hypothesis / 6b.1:
Chi-Square Test for Goodness of Fit / 6b.2:
Test for Deviation in a Single Cell / 6b.3:
Test Whether the Parameters Lie in a Subset / 6b.4:
Some Examples / 6b.5:
Test for Deviations in a Number of Cells / 6b.6:
Tests Relating to Independent Samples from Multinomial Distributions / 6c:
Test of Homogeneity of Parallel Samples / 6c.1:
Contingency Tables / 6c.3:
The Probability of an Observed Configuration and Tests in Large Samples / 6d.1:
Tests of Independence in a Contingency Table / 6d.2:
Tests of Independence in Small Samples / 6d.3:
Some General Classes of Large Sample Tests / 6e:
Notations and Basic Results / 6e.1:
Test of a Simple Hypothesis / 6e.2:
Test of a Composite Hypothesis / 6e.3:
Order Statistics / 6f:
The Empirical Distribution Function / 6f.1:
Asymptotic Distribution of Sample Fractiles / 6f.2:
Transformation of Statistics / 6g:
A General Formula / 6g.1:
Square Root Transformation of the Poisson Variate / 6g.2:
Sin-1 Transformation of the Square Root of the Binomial Proportion / 6g.3:
Tanh-1 Transformation of the Correlation Coefficient / 6g.4:
Standard Errors of Moments and Related Statistics / 6h:
Variances and Covariances of Raw Moments / 6h.1:
Asymptotic Variances and Covariances of Central Moments / 6h.2:
Exact Expressions for Variances and Covariances of Central Moments / 6h.3:
Theory of Statistical Inference / Chapter 7:
Testing of Statistical Hypotheses / 7a:
Statement of the Problem / 7a.1:
Neyman-Pearson Fundamental Lemma and Generalizations / 7a.2:
Simple Ho against Simple H / 7a.3:
Locally Most Powerful Tests / 7a.4:
Testing a Composite Hypothesis / 7a.5:
Fisher-Behrens Problem / 7a.6:
Asymptotic Efficiency of Tests / 7a.7:
Confidence Intervals / 7b:
The General Problem / 7b.1:
A General Method of Constructing a Confidence Set / 7b.2:
Set Estimators for Functions of &Teata; / 7b.3:
Sequential Analysis / 7c:
Wald?s Sequential Probability Ratio Test / 7c.1:
Some Properties of the S.P.R.T / 7c.2:
Efficiency of the S.P.R.T / 7c.3:
An Example of Economy of Sequential Testing / 7c.4:
The Fundamental Identity of Sequential Analysis / 7c.5:
Sequential Estimation / 7c.6:
Sequential Tests with Power One / 7c.7:
Problem of Identification?Decision Theory / 7d:
Randomized and Nonrandomized Decision Rules / 7d.1:
Bayes Solution / 7d.3:
Complete Class of Decision Rules / 7d.4:
Minimax Rule / 7d.5:
Nonparametric Inference / 7e:
Concept of Robustness / 7e.1:
Distribution-Free Methods / 7e.2:
Some Nonparametric Tests / 7e.3:
Principle of Randomization / 7e.4:
Ancillary Information / 7f:
Multivariate Analysis / Chapter 8:
Multivariate Normal Distribution / 8a:
Properties of the Distribution / 8a.1:
Some Characterizations of Np / 8a.3:
Density Function of the Multivariate Normal Distribution / 8a.4:
Estimation of Parameters / 8a.5:
Np as a Distribution with Maximum Entropy / 8a.6:
Wishart Distribution / 8b:
Definition and Notation / 8b.1:
Some Results on Wishart Distribution / 8b.2:
Analysis of Dispersion / 8c:
The Gauss-Markoff Setup for Multiple Measurements / 8c.1:
Tests of Linear Hypotheses, Analysis of Dispersion (A.D.) / 8c.2:
Test for Additional Information / 8c.4:
The Distribution of A / 8c.5:
Test for Dimensionality / Structural Relationship)8c.6:
Analysis of Dispersion with Structural Parameters (Growth Model) / 8c.7:
Some Applications of Multivariate Tests / 8d:
Test for Assigned Mean Values / 8d.1:
Test for a Given Structure of Mean Values / 8d.2:
Test for Differences between Mean Values of Two Populations / 8d.3:
Test for Differences in Mean Values between Several Populations / 8d.4:
Barnard?s Problem of Secular Variations in Skull Characters / 8d.5:
Discriminatory Analysis (Identification) / 8e:
Discriminant Scores for Decision / 8e.1:
Discriminant Analysis in Research Work / 8e.2:
Discrimination between Composite Hypotheses / 8e.3:
Relation between Sets of Variates / 8f:
Canonical Correlations / 8f.1:
Properties of Canonical Variables / 8f.2:
Effective Number of Common Factors / 8f.3:
Factor Analysis / 8f.4:
Orthonormal Basis of a Random Variable / 8g:
The Gram-Schmidt Basis / 8g.1:
Principal Component Analysis / 8g.2:
Publications of the Author
Author Index
Subject Index
Continuous Probability Models
The Theory of Least Squares and Analysis of Variance
Algebra of Vectors and Matrices / Chapter 1:
Vector Spaces
Definition of Vector Spaces and Subspaces / 1a.1:
77.
図書
edited by A. Marzollo
78.
図書
advisory editors, Howard Gordon, Roy Meador
出版情報:
Ann Arbor, Mich. : Ann Arbor Science Publishers, c1977 2 v. ; 29 cm
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79.
図書
80.
図書
International Conference on the Hydraulic Transport of Solids in Pipes ; British Hydromechanics Research Association
出版情報:
Cranfield, Bedford, Eng. : The British Hydromechanics Research Association, c1973 2 v. ; 31 cm
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81.
図書
editor, C.V. Freiman
出版情報:
Amsterdam ; London : North-Holland, 1972 2 v. ; 31 cm
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82.
図書
edited by A.C. Melissinos and P.F. Slattery
83.
図書
R. W. Ditchburn
出版情報:
London ; New York : Academic Press, 1976 2 v. (xviii, 775 p.) ; 23 cm
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84.
図書
ACM (Association for Computing Machinery) ; Fred J. Maryanski
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ACM, 1979
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85.
図書
ACM SIGCSE
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ACM(Association for Computing Machinery), 1979
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86.
図書
[by] Herman A. Szymanski and Ronald E. Erickson
出版情報:
New York : IFI/Plenum, 1970 2 v. (xii, 1491 p.) ; 26 cm
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87.
学位
安齋和雄
出版情報:
東京 : 東京工業大学, 1974
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88.
図書
edited by Jan Forslin, Adam Sarapata, and Arthur M. Whitehill, in collaboration with Frank Adler and Stephen Mills
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Oxford ; New York : Pergamon Press, 1979-1986 v. <1, pt. 1-2; 2, pt. 1-2 > ; 26 cm
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89.
図書
edited by Saul Patai
90.
図書
O.G. Koch, G.A. Koch-Dedic
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Berlin : Springer, 1974 2 v. (1597p.) ; 25 cm
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91.
図書
Rodd, E. H. ; Coffey, S. (Samuel) ; Ansell, Martin F. (Martin Frederick) ; Sainsbury, Malcolm
目次情報:
続きを見る
Contributor
Preface
List of common abbreviations and symbols used
Six-membered Ring Compounds with one Hetero-Atom: Oxygen / R. LivingstoneChapter 20:
Pyran and its derivatives / 1.:
Pyrans and pyrylium salts / (a):
2H- and 4H pyrans (2- and 4-pyrans, [alpha]-and [gamma]-pyrans) / (i):
Pyrylium salts / (ii):
2H-Pyran-2-ones ([alpha] or 2-pyrones) and 4H-pyran-4-ones ([gamma] or 4-pyrones) / (b):
2H-Pyrones
4H-Pyrones
Hydroxy-2H-pyran-2-ones (hydroxy-2H-pyrones, hydroxy-2-pyrones, hydroxy-[alpha]-pyrones) / (iii):
Hydroxy-4H-pyran-4-ones (hydroxy-4H-pyrones, hydroxy-4-pyrones, hydroxy-[gamma]-pyrones) / (iv):
Hydropyrans / 2.:
Dihydropyrans and derivatives
3,4-Dihydro-2H-pyrans (2,3-dihydro-4H-pyrans)
3,4-Dihydro-2H-pyran-2-, 3-, and 4-ones (3,4-dihydro-2, 3-, and 4-pyrones)
3,4-Dihydro-2H-pyran-2,4-diones
5,6-Dihydro-2H-pyrans, 3,6-dihydro-2H-pyrans
5,6-Dihydro-2H-pyran-2-, -5, and-6-ones (3,6-dihydro-2H-pyran-6-, -3- and -2-ones) / (v):
3,6-Dihydro-2H-pyran-2,6-diones, 5,6-dihydro-2H-pyran-2,6-diones / (vi):
Tetrahydropyrans and derivatives
Tetrahydropyran, alkyl and aryl substituted tetrahydropyrans and related derivatives
Tetrahydropyranols and derivatives
Hydroxyalkyltetrahydropyrans and related compounds
Tetrahydropyran-carboxaldehydes
Tetrahydro-pyrancarboxylic acids and esters
Halogenotetrahydropyrans
Cyano-, nitro-, and amino-tetrahydropyrans and related compounds / (vii):
Tetrahydropyran-2, -3-, and -4-ones / (viii):
Benzo[b]pyrans (1-benzopyrans, 5,6-benzopyrans, chromenes) and their derivatives / 3.:
Benzo[b]pyrans and their oxidation products
Alkyl- and alylbenzo[b]pyrans and flavenes
Naturally occurring derivatives of 2,2-dimethyl-2H-benzo[b]pyran
Benzopyrylium or chromylium and flavylium salts
Coumarin (2H-benzo[b]pyran-2-one, 5,6-benzo-2-pyrone, 5,6-benzo-[alpha]-pyrone) and its derivatives
Hydroxy-coumarins
Dihydroxycoumarins
Trihy-droxycoumarins
Miscellaneous coumarin derivatives
Furocoumarins / (ix):
Pyrancoumarins / (x):
Chromones (4H)-benzo[b]pyran-4-ones, 5,6-benzo-4-pyrones, 5,6-benzo-y-pyrones) / (xi):
Miscellaneous compounds related to chromone / (xii):
Furochromones / (xiii):
Pyranochromones / (xiv):
Flavones (2-phenylchromones, 2-phenyl-4H-benzo[b]pyran-4-ones) and related derivatives / (xv):
Flavonols (3-hydroxyflavones, 3-hydroxy-2-phenyl-4H-benzo[b]pyran-4-ones) / (xvi):
Isoflavones (3-phenyl-chromones, 3-phenyl-4H-benzo[b]-pyran-4-ones) / (xvii):
Furoisoflavones / (xviii):
Chroman, dihydrochromene, 3,4-dihydro-2H-benzo[b]pyran and derivatives / 4.:
Chromans
Tocopherols
Phenylchromans (flavans and isoflavans) phenyl-2H-3,4-dihydrobenzo[b]-pyrans / (c):
Flavan, 2-phenylchroman, 2-phenyl-2H-3,4-dihydrobenzo[b]pyran derivatives
Isoflavans, 3-phenylchromans, 3-phenyl-2H-3,4-dihydrobenzo[b]pyran derivatives
Chromanols, hydroxychromans / (d):
Flavanols, 3-hydroxy-2-phenylchromans, 3-hydroxy-2-phenyl-3,4-dihydro-2H-benzo[b]pyran, catechins and related condensed tannins / (e):
Flavanols
Catechins
Flavan-4-ols
Chromanones, dihydrobenzo[b]pyranones / (f):
Chroman-2-ones, dihydrocoumarin
Chroman-3-ones
Chroman-4-ones
Chromandiones
Flavanones, 2-phenylchroman-4-ones, 2-phenyl-3,4-dihydro-2H-benzo[b]-pyran-4-one / (g):
Hydroxyflavanones / (h):
Biflavanones
Isoflavanones, 3-phenylchroman-4-ones, 3-phenyl-3,4-dihydro-2H-benzo[b]pyran-4-ones / (j):
1H-Benzo[c]pyran, 1H-2-benzopyran, isobenzopyran, 3,4-benzopyran, isochromene, and its derivatives / 5.:
1H-Benzo[c]pyrans
Benzo[c]pyrylium salts
Isocoumarin, 1H-benzo[c]pyran-1-one
3H[Benzo[c]pyran-3-ones
Isochroman, 3,4-dihydro-1H-benzo[c]pyran, 3,4-dihydro-1H-2-benzopyran and derivatives / 6.:
Isochroman
Isochromanones, 3,4-dihydroisocoumarins, and isochromandiones
Isochroman-1-ones
Isochroman-3-one
Isochromandiones
Tetrahydro- and perhydroisochroman derivatives and related compounds
Xanthene, dibenzo[b,e]pyran, 2,3:5,6-dibenzopyran and derivatives / 7.:
Xanthene derivatives
Xanthylium salts and xanthene colouring matters
Xanthones
Halogenoxanthones
Nitro- and aminoxanthones
Hydroxyxanthones and related compounds
Acylxanthones, xanthonecarboxylic acids and derivatives
Tetra-, hexa-, octa-, deca-, and perhydroxanthones and related compounds
Furoxanthones
6H-Dibenzo[b,d]pyran, 3,4-benzochromone and its derivatives / 8.:
Naphthopyrans, benzochromenes and derivatives / 9.:
Naphtho[1,2-b]-, [2,1-b], and [2,3-b]pyrans
Naphthol[1,2-b]pyrans
Naphtho[2,1-b]pyrans
Naphtho[1,2-b]- and [2,1-b]pyrans
Naphtho[2,3-b]-pyrans
Naphtho[1,2-c]- and [2,3-c]pyrans, isonaphthopyrans
Naphtho[1,8-b,c]- and [1,8-c,d]pyrans
Benzo- and dibenzoxanthone derivatives and miscellaneous pyran ring systems / 10.:
Six-membered Ring Compounds with One Hetero-Atom: Sulphur, Selenium, Tellurium, Silicon, Germanium, and Tin / Chapter 21.:
Thiopyran derivatives
Thiopyrans, thiopyrylium salts and thiopyrones
Thipyrans
Thiopyrylium salts
Thiopyranones
Di- and tetra-hydro-thiopyrans and -thiopranones
Dihydrothiopyrans, dihydrothiins, dihydrothiapyrans and related 2-, 3-, and 4-ones
Tetrahydrothiopyrans, thianes, tetra-hydrothiapyrans and related 3-and 4-ones
Benzo[b]thiopyrans, 1-benzothiopyrans, benzo[b]thiins, thiochromenes, 5,6-benzothiapyrans and derivatives
Benzo[b]thiopyrans, benzo[b]thiopyranones and related naphtho derivatives
Benzo[b]thiopyrans, 1-benzothiopyrans, benzo[b]thiins, thiochromenes
Benzothiopyrylium salts, 1-benzothiopyranylium salts, thiochromylium salts
Benzothiopyranones
Thiochromans, thiochromanones and related compounds
Thiochromans, 3,4-dihydro-2H-benzo[b]thiopyrans
Thiochromanones, 3,4-dihydro-2H-benzo[b]thiopyranones
Thiochromanols, 3,4-dihydro-2H-benzo[b]thiopyranols
Hexahydrobenzo[b]thiopyrans, hexahydro-1-benzothiopyrans, hexahydrothiochromens and octahydrobenzo[b]thiopyrans, octahydro-1-benzothiopyrans, octahydrothiochromens, hexahy-drothiochromans
1H-Benzo[c]thiopyran, 1H-2-benzothiopyran, isothiochromene, 3,4-benzothio-pyran and its derivatives
1H-Benzo[c]thiopyran, isothiochromene and derivatives
3,4-Dihydro-1H-benzo[c]thiopyran, 3,4-dihydro-1H-2-benzothiopyran, isothiochroman and its derivatives
Dibenzothiopyran, thioxanthene and derivatives
Thioxanthenes, thioxanthylium salts, and thioxanthenium salts
Thioxanthones, thioxanthen-9-ones
Dibenzo[b,d]thiopyrans
Naphthothiopyrans and related compounds
Naphthothiopyrans
Perinaphthothiopyrans, thiaphenalenes
Benzothioxanthene derivatives
Selenopyrans and related compounds
Selenopyrans and derivatives
Selenopyrans containing fused rings
Benzoselenopyrans and derivatives
Selenoxanthene and derivatives
Telluropyrans and related compounds
Telluropyrylium salts and tellurane, tetrahydrotelluropyran derivatives
Telluropyrans containing fused rings
Benzotelluropyrans
Telluroxanthenes
Compounds containing an element from Group 4
Silicon compounds
Silabenzene, silacyclohexenes and their derivatives
Silacyclohexane and derivatives
Polycyclic silanes with six-membered rings
Germanium and tin compounds
Germanium compounds
Tin compounds
Guide to the index
Index
List of contributors
Five-membered Monoheterocyclic Compounds Alkaloids (continued): Pyrrolidine Alkaloids / D.J. RobinsChapter 7.:
Pyrrolidine bases
Pyrrolidones
N-Acylpyrrolidines
N-Acylpyrrolidones
Five-membered Monoheterocyclic Compounds (continued): Pyrrolizidine Alkaloids / Chapter 8.:
Introduction
Synthesis of necines
Unhydroxylated compounds
Monohydroxylated necines
Dihydroxylated necines
Trihydroxylated necines
Tetrahydroxylated necines
Synthesis of macrocyclic pyrrolizidine alkaloids
Structures of pyrrolizidine alkaloids
Unesterified necines
Monoesters
Acyclic diesters
Cyclic diesters
The Indole Alkaloids / G.W. GribbleChapter 9.:
Alkaloids lacking a tryptamine unit
Simple indoles
Carbazole derivatives
Alkaloids containing a tryptamine unit
Compounds without an isoprene moiety
Simple tryptamine and tryptophan derivatives
Eserine types
[beta]-Carboline and reduced [beta]-carbolines
Compounds containing an isoprene- (but not terpene-) derived moiety
The ergot alkaloids
Mould metabolites
Compounds containing a terpene-derived moiety
Alkaloids of the Corynanthe-Strychnos unit
Alkaloids with a seco-type unit
Alkaloids with the Aspidosperma unit
Alkaloids containing the Iboga unit
Novel types
Bisindole alkaloids
Compounds containing two identical "halves" linked symmetrically
Calycanthaceous alkaloids
Calabash-curare alkaloids
Diketopiperazine alkaloids
Bis-indole quinones
Indolo[2,3-alpha]carbazoles and related alkaloids
Marine bis-indoles
Other symmetrical bis-indoles
Compounds not composed of identical halves nor linked symmetrically
Sesquimeric compounds
The secamines and presecamines
Bis-indoles from Vinca rosea
Bis-carbazoles
Duo-carmycins and related alkaloids
Simple bis-indoles
Other complex bis-indole alkaloids
Five-membered Monoheterocyclic Compounds, Amaryllidaceae Alkaloids / J.R. LewisChapter 10.:
Biogrenesis
Biological activity
Table 1. New amaryllidaceae alkaloids (1987-1994) and their botanical sources
X-ray structure determination
Lycorine type alkaloids
Isolation and structural studies
Synthesis
Lycorenan type alkaloids (lycorenines and homolycorines)
Crinine type alkaloids
Galannthamine type alkaloids
Pancracine type alkaloids
Phenanthridine alkaloids / 11.:
Miscellaneous alkaloids / 12.:
Benzylidene-phenylethylamines and belladines
4-Phenyltetrahydroisoquinolines
Mesembrinanes
Tropane Alkaloids / G. FodorChapter 11:
Synthesis of tropanes
Stereochemistry of the ring nitrogen in tropanes
Established alkaloids
New tropane alkaloids
New cocaine alkaloids
Biosynthesis
Biological activity of some tropane alkaloids
Pyrrole Pigments / K.M. SmithChapter 12.:
Scope
Nomenclature
Porphyrins
Meso-tetra-arylporphyrins and other meso-arylporphyrins
Octa-substituted and related porphyrins
Petroporphyrins
Porphyrin oligomers
Chlorins and bacteriochlorins
Chlorophylls and derivatives
Other chlorins
Chlorins and bacteriochlorins in photodynamic therapy
Phlorins and oxophlorins
Phlorins
Oxophlorins
Corroles
Expanded systems: sapphyrins and pentaphyrins
Sapphyrins
Pentaphyrins
Porphycenes
Corrins
Biliverdins
Acknowledgements
Five-membered Monoheterocyclic Compounds - The Pyrrole Pigments (continued) / Chapter 13.:
Five-membered Monoheterocyclic Compounds: the Indigo Group / M. SainsburyChapter 14.:
Metal complexation
Photoisomerism and photochemistry of indigo, its derivatives and related compounds
Thermal isomerisation
Other indigo analogues
Oxidation and chemical reduction of indigo derivatives
Biosynthesis and the isolation of indigoids from natural sources
Cyanine Dyes and Related Compounds / G. Bach ; S. DahneChapter 15.:
Theory of color and constitution
The ideal polymethine state
Triad theory
Significance of NIR dyes
Progress in syntheses of cyanine dyes
Basic synthetic routes
Cyanines having halogeno and cyano substituents at the polymethine chain
Chain-bridged cyanines
Pyrylium, thiapyrylium, and selenapyrylium cyanines
Reactions of cyanine dyes
Properties of cyanine dyes
Physico-chemical properties in the ground state
Electronic structure
Energy levels
Solvatochromism and hydrophobicity
Properties of photoexcited states
Intermolecular interactions of cyanine dyes
Ion pair formation
Homomolecular aggregation of cyanine dyes
Heteromolecular interaction of cyanine dyes
Applications of cyanine dyes
Analytical markers, probes, and sensors in chemistry and molecular biology
Probing solvent polarity and solvent hydrophobicity
Ion recognition
Fluorescence labeling in molecular biology
Cyanine dyes for probing physico-chemical properties of organized media
Structure of interfaces and Langmuir Blodgett (LB) layers
Probing dielectric constants, lipophilicity, and microviscosity
Determination of critical micelle concentration (cmc)
Determination of membrane potentials
Excitation energy transfer
Cyanine dyes in laser technology
Application of light induced polarization. Nonlinear optical properties
Applications of (photo)electrical and photochemical activity
Spectral sensitization
Photoinduced electron transfer (PET)
Photovoltaic and solar cells, solar collectors
Optical recording
Charge control agents for electrophotographic processes
Electroluminescence
Electronic photography
Application of cyanine dyes in molecular biology and medicine
Probing transport phenomena
Identification of active oxygen species
Photodynamic therapy by singlet oxygen generation through cyanine dyes
Guide to the Index
Contributor
Preface
List of common abbreviations and symbols used
92.
EB
Richard H. Austing, Association for Computing Machinery-Digital Library.
出版情報:
ACM Digital Library Proceedings , ACM, 1978
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93.
EB
Harold Joseph Highland, Association for Computing Machinery-Digital Library.
出版情報:
ACM Digital Library Proceedings , Piscataway NJ : IEEE Press, 1974
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94.
EB
Association for Computing Machinery-Digital Library.
出版情報:
ACM Digital Library Proceedings , New York NY : ACM, 1979
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95.
EB
Raymond T. Yeh, Association for Computing Machinery-Digital Library.
出版情報:
ACM Digital Library Proceedings , Los Alamitos CA : IEEE Computer Society Press, 1976
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96.
EB
Robert G. Sargent, Association for Computing Machinery-Digital Library.
出版情報:
ACM Digital Library Proceedings , . : Winter Simulation Conference, 1977
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97.
EB
Roger C. Brown, Association for Computing Machinery-Digital Library.
出版情報:
ACM Digital Library Proceedings , New York NY : ACM, 1974
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98.
EB
Robert M. Dunn, Association for Computing Machinery-Digital Library.
出版情報:
ACM Digital Library Proceedings , New York NY : ACM, 1975
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99.
EB
Willis K. King, Association for Computing Machinery-Digital Library.
出版情報:
ACM Digital Library Proceedings , New York NY : ACM, 1975
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100.
EB
Larry G. Hull, Association for Computing Machinery-Digital Library.
出版情報:
ACM Digital Library Proceedings , Los Alamitos CA : IEEE Computer Society Press, 1978
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図書
EB
学位
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