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1.

図書
図書
1. British books in print : the reference catalogue of current literature (1965, v. 1 - 1987, v. 4)
出版情報: London : Whitaker, c1965-c1986  v. ; 30 cm
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2.

図書
図書
2. Reviews of plasma physics (v. 1 - v. 24)
authorized translation from the Russian by Herbert Lashinsky ; edited by M.A. Leontovich
出版情報: New York : Consultants Bureau, 1965-  v. ; 24 cm
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Cooperative Effects in Plasmas / B.B. KadomtsevPart 1:
Preliminaries / 1:
Nonlinear Waves / 2:
Waves and Particles / 3:
Plasma in a Magnetic Field / 4:
Linear Waves / 5:
Relativistic Interaction of Laser Pulse With Plasmas / S.V. Bulanov ; F. Califano ; G.I. Dudnikova ; T.Zh. Esirkepov ; I.N. Inovenkov ; F.F. Kamenets ; T.V. Liseikina ; M. Lontano ; K. Mima ; N. M. Naumova ; K. Nishihara ; F. Pegoraro ; H. Ruhl ; A.S. Sakharov ; Y. Sentoku ; V.A. Vshivkov ; V.V. ZhakhovskiiPart 2:
Introduction
Relativistically strong electromagnetic waves in underdense plasmas
Acceleration of charged particles and photons
Filamentation of the laser light and magnetic interaction of filaments and electromagnetic radiation
Relativistic solitons
Interactions of an ultrashort, relativistically strong, laser pulse with an overdense plasma
Nonlinear interactions of laser pulses with a foil / 6:
Coulomb explosion of a cluster irradiated by a high intensity laser pulse / 7:
Conclusions / 8:
References
Theoretical Principles of the Plasma-Equilibrium Control in Stellarators / V. D. Pustovitov
History of the problem and a general review of the theory / 1.:
The first problems of tokamaks and stellarators / 1.1.:
The problem of high [beta] / 1.2.:
Development of the MHD theory of stellarators / 1.3.:
High [beta] and the problem of plasmaequilibrium control / 1.4.:
Free-boundary plasma equilibrium / 1.5.:
Plasma-shape control in stellarators / 1.6.:
General equations of the theory of plasma equilibrium in conventional stellarators / 2.:
Stellarator approximation and the magnetic differential equation / 2.1.:
Real and averaged magnetic surfaces / 2.2.:
Integral quantities / 2.3.:
Currents in equilibrium configurations / 2.4.:
Longitudinal current in a stellarator / 2.5.:
Two-dimensional equation of plasma equilibrium in stellarators / 2.6.:
Analytical models / 3.:
Two-dimensional model of a stellarator / 3.1.:
Minimal set of parameters / 3.2.:
Description of the inner part of the plasma / 3.3.:
Effect of satellite harmonics on the stellarator configuration / 3.4.:
Control of plasma equilibrium using a vertical magnetic field / 4.:
Boundary conditions in equilibrium problems / 4.1.:
Reduction of the boundary conditions / 4.2.:
Effect of a vertical field on the plasmacolumn position in stellarators / 4.3.:
Suppression of the Pfirsch-Schluter current in conventional stellarators / 4.4.:
Integral independence on [beta] and "overcompensation" / 4.5.:
The influence of a quadrupole field on the stellarator configuration / 5.:
Control of the vacuum stellarator configuration using a quadrupole field / 5.1.:
Doublet-like stellarator configurations / 5.2.:
Control of the rotational-transform profile with the help of the quadrupole field / 5.3.:
Elongation of the plasma column as a means of increasing [beta][subscript eq] in stellarators / 5.4.:
List of main symbols
Fundamentals of Stationary Plasma Thruster Theory / A. I. Morozov ; V. V. Savelyev
General picture of processes in SPTs
Principal scheme of an SPT
Specifics of physical processes in SPTs
Quasi-autonomous functional units of SPTs
General system of equations and boundary conditions for SPT processes
Magnetic and electric fields in SPTs
Magnetic fields in SPTs
"Equipotentialization" of the magnetic force lines. Magnetic drift surfaces
The "loading" of magnetic force lines
Plasma electric field for the quasi-Maxwellian electron component
Remarks
Electron kinetics in the SPT channel
Characteristics of particle collisions with each other and with the surfaces
Electron distribution functions in the SPT channel
Debye layers on the SPT channel walls
The near-wall conductivity (NWC)
UHF-oscillations in the SPT channel / 3.5.:
Some conclusions / 3.6.:
Erosion of insulators in SPTs
The role and form of insulator erosion
Ion sputtering
Mathematical modeling of the anomalous erosion
Heavy particle dynamics in the SPT channel
Dynamics of single heavy particles
A kinetic description of ionizing heavy particles
Similarity criteria for discharges in SPT
The "inverse" problem of heavy particle dynamics
An analysis of processes using the emerging flux characteristics / 5.5.:
Estimate of energetic balance components in the SPT-ATON / 5.6.:
Low-frequency oscillations in SPTs / 6.:
Experimental data on LF-oscillations in the SPT channel / 6.1.:
Linear oscillations in a one-dimensional flux model without ionization / 6.2.:
One-dimensional self-consistent models for plasma flow in an SPT channel / 7.:
Modeling an SPT in the one-dimensional hydrodynamic approximation / 7.1.:
The results of calculations in the hydrodynamic model / 7.2.:
Dynamics of oscillations / 7.3.:
A hybrid model for the plasma flow in an SPT / 7.4.:
SPTs in real conditions / 8.:
The particle influx from the VC into the SPT / 8.1.:
Preventing particle influx from the VC / 8.2.:
Supersynchronization phenomenon / 8.3.:
Appendix
The necessity of electric propulsion thrusters / A.:
Preface
Mechanisma of Transverse Conductivity and Generation of Self-Consistent Electric Fields in Strongly Ionized Magnetized Plasma / V. Rozhansky
Conductivity Tensor in Partially Ionized Plasma / 1.1:
Main Mechanisms of Perpendicular Conductivity in Fully Ionized Plasma: Currents Caused by Viscosity, Inertia, Collisions with Neutrals, and [down triangle, open]B, and Mass-Loading Currents / 1.3:
Inertia Currents / 1.3.1:
Currents Caused by Ion-Neutral Collisions / 1.3.2:
Diamagnetic Currents / 1.3.3:
Viscosity-Driven Currents / 1.3.4:
Mass-Loading Current / 1.3.5:
Inertial (Polarization) and [down triangle, open]B Currents. Acceleration of Plasma Clouds in an Inhomogeneous Magnetic Field / 1.4:
Alfven Conductivity / 1.5:
Perpendicular Viscosity, Radial Current, and Radial Electric Field in an Infinite Cylinder / 1.6:
Current Systems in Front of a Biased Electrode (Flush-Mounted Probe) and Spot of Emission / 1.7:
Viscosity-Driven Perpendicular Currents / 1.7.1:
Currents Driven by Ion-Neutral Collisions / 1.7.2:
General Situation / 1.7.3:
Spot of Emission / 1.7.5:
Currents in the Vicinity of a Biased Electrode That is Smaller Than the Ion Gyroradius / 1.8:
Neoclassical Perpendicular Conductivity in a Tokamak / 1.9:
Steady State Current / 1.9.1:
Time-Dependent Current / 1.9.2:
Transverse Conductivity in a Reversed Field Pinch / 1.10:
Modeling of Electric Field and Currents in the Tokamak Edge Plasma / 1.11:
Mechanisms of Anomalous Perpendicular Viscosity and Viscosity-Driven Currents / 1.12:
Transverse Conductivity in a Stochastic Magnetic Field / 1.13:
Nonstochastic Magnetic Field / 1.13.1:
Stochastic Magnetic Field / 1.13.2:
Electric Fields Generated in the Shielding Layer between Hot Plasma and a Solid State / 1.14:
Correlations and Anomalous Transport Models / O.G. Bakunin
Turbulent Diffusion and Transport / 2.1:
The Correlation Function and the Taylor Diffusivity / 2.2.1:
The Richardson Law / 2.2.2:
The Davydov Model of Turbulent Diffusion / 2.2.3:
The Batchelor Approximation for the Diffusion Coefficient / 2.2.4:
Nonlocal Effects and Diffusion Equations / 2.3:
The Functional Equation for Random Walks / 2.3.1:
Nonlocality and the Levy Distribution / 2.3.2:
The Monin Fractional Differential Equation / 2.3.3:
The Corrsin Conjecture / 2.4:
The Corrsin Independence Hypothesis / 2.4.1:
The Simplified Corrsin Conjecture / 2.4.2:
The Correlation Function and Scalings / 2.4.3:
Effects of Seed Diffusivity / 2.5:
Seed Diffusivity and Correlations / 2.5.1:
"Returns" and Correlations / 2.5.2:
The Stochastic Magnetic Field and Scalings / 2.5.3:
The Howells Result / 2.5.4:
The Diffusive Tracer Equation and Averaging / 2.6:
The Taylor Shear Flow Model / 2.6.1:
Generalization of the Taylor Model / 2.6.2:
The Zeldovich Flow and the Kubo Number / 2.6.3:
Advection and Zeldovich Scaling / 2.6.4:
The System of Random Shear Flows / 2.7:
The Dreizin-Dykhne Superdiffusion Regime / 2.7.1:
The Matheron-de Marsily Model / 2.7.2:
The "Manhattan Grid" Flow and Transport / 2.7.3:
The Quasi-Linear Approximation / 2.8:
Quasi-Linear Equations / 2.8.1:
Short-Range and Long-Range Correlations / 2.8.2:
The Telegraph Equation / 2.8.3:
Magnetic Diffusivity and the Kubo Number / 2.8.4:
The Diffusive Renormalization / 2.9:
The Dupree Approximation / 2.9.1:
The Dupree Theory Revisited / 2.9.2:
The Taylor-McNamara Correlation Function / 2.9.3:
The Kadomtsev-Pogutse Renormalization and the Stochastic Magnetic Field / 2.9.4:
Anomalous Transport and Convective Cells / 2.10:
Bohm Scaling and Electric Field Fluctuations / 2.10.1:
The Bohm Regime and Correlations / 2.10.2:
Convective Cells and Transport / 2.10.3:
Complex Structures and Convective Transport / 2.10.4:
Stochastic Instability and Transport / 2.11:
Stochastic Instability and Correlations / 2.11.1:
The Rechester-Rosenbluth Model / 2.11.2:
Collisional Effects and the Stix Formula / 2.11.3:
The Quasi-Isotropic Stochastic Magnetic Field and Transport / 2.11.4:
Quasi-Linear Scaling for the Stochastic Instability Increment / 2.11.5:
Fractal Conceptions and Turbulence / 2.12:
Fractality and Transport / 2.12.1:
The Richardson Law and Fractality / 2.12.2:
Intermittency and the Kolmogorov Law / 2.12.3:
Percolation and Scalings / 2.13:
Continuum Percolation and Transport / 2.13.1:
Renormalization and Percolation / 2.13.2:
Graded Percolation / 2.13.3:
Percolation and Turbulent Transport Scalings / 2.14:
Random Steady Flows and Seed Diffusivity / 2.14.1:
The Spatial Hierarchy of Scales and Stochastic Instability / 2.14.2:
Low Frequency Regimes / 2.14.3:
The Temporal Hierarchy of Scales and Correlations / 2.15:
The Spatial and Temporal Hierarchy of Scales / 2.15.1:
The Isichenko Intermediate Regime / 2.15.2:
Dissipation and Percolation Transport / 2.15.3:
The Stochastic Magnetic Field and Percolation Transport / 2.16:
Percolation and the Kadomtsev-Pogutse Scaling / 2.16.1:
Percolation Renormalization and the Stochastic Instability Increment / 2.16.3:
Percolation in Drift Flows / 2.17:
Graded Percolation and Drift Flows / 2.17.1:
Low Frequency Regimes and Drift Effects / 2.17.2:
Compressibility and Percolation / 2.17.3:
Multiscale Flows / 2.18:
The Nested Hierarchy of Scales and Drift Effects / 2.18.1:
The Brownian Landscape and Percolation / 2.18.2:
Correlations and Transport Scalings / 2.18.3:
The Diffusive Approximation and the Multiscale Model / 2.18.4:
Stochastic Instability and Time Scales / 2.18.5:
Isotropic and Anisotropic Turbulent Energy Spectra / 2.18.6:
The Multiscale Model of Transport in a Tangled Magnetic Field / 2.18.7:
Subdiffusion and Traps / 2.19:
The Balagurov and Vaks Model of Diffusion with Traps / 2.19.1:
Subdiffusion and Fractality / 2.19.2:
Comb Structures and Transport / 2.19.3:
Continuous Time Random Walks / 2.20:
The Montroll and Weiss Approach and Memory Effects / 2.20.1:
Fractional Differential Equations / 2.20.2:
The Taylor Definition and Memory Effects / 2.20.3:
Fractional Differential Equations and Scalings / 2.21:
The Klafter, Blumen, and Shlesinger Approximation / 2.21.1:
The Stochastic Magnetic Field and Balescu Approach / 2.21.2:
Longitudinal Correlations and the Diffusive Approximation / 2.21.3:
Vortex Structures and Trapping / 2.21.4:
Correlations and Trapping / 2.21.5:
Correlation and Phase-Space / 2.22:
The Corrsin Conjecture and Phase-Space / 2.22.1:
The Hamiltonian Nature of the Universal Hurst Exponent / 2.22.2:
The One-Flight Model and Transport / 2.22.3:
Correlations and Nonlocal Velocity Distribution / 2.22.4:
The Arrhenius Law and Phase-Space Distribution / 2.22.5:
Conclusion / 2.23:
Acknowledgements
Cooperative Effects in Plasmas / B.B. KadomtsevPart 1:
Preliminaries / 1:
Nonlinear Waves / 2:
3.

図書
図書
3. Astronomie und Astrophysik (: gw ; : us)
bearbeitet von L.H. Aller ... [et al.] ; hrsg. von H.H. Voigt
出版情報: Berlin : Springer, 1965  xxxix, 711 p. ; 28 cm
シリーズ名: Landolt-Börnstein Zahlenwerte und Funktionen aus Naturwissenschaften und Technik, Neue Serie / Gesamtherausgabe, K.-H. Hellwege ; Gruppe 6 . Astronomie, Astrophysik und Weltraumforschung ; Bd. 1
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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 X2MnZ
3,3,5,5-Tetramethyl-1-pyrroline N-oxide / 59:
Thermal properties near the transition temperature
Tantalum / 1.5.5.2.2.1:
X2MnZ 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:
X2MnZ 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 X2MnZ
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:
X2MnZ 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 X2YZ 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:
Co2YZ 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:
Co2YZ 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:
Fe2YZ with X = 6A, 8A element
Methoxycarbonyl-5-phenyl-3,3,5-trimethyl-1-pyrroline N-oxide
Primary references
Fe2FeZ / 1.5.5.2.4.4:
Dialkyl nitroxides
Supplementary references
Index of gross molecular formulas / 1.5.5.2.4.5:
Mn2VZ
Cyclic dialkyl nitroxides
Spinels
Index of substance names / 1.5.5.2.5:
Arrangement
Paramagnets X2YZ 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*)2MnSn 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*)2TiSn with X, X* = 3d elements
Imidazolidinyl-1-oxyls
(XX*)2MnSn with X = 3d, X* = 4d element / 1.5.5.2.6.4:
Imidazolinyl-1-oxyls
(XX*)2MnAl with X = 3d, X* = 4d element / 6.1.0:
Imidazolinyl-1-oxyl oxides
Ferrimagnetism; magnetic behaviour of ferrites / 1.5.5.2.6.6:
Pd2Mn (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-xMnSb 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:
Co2MnZ / 6.1.2:
Acyl nitroxides
Ni2MnZ / 1.5.5.3.3.2:
Amino nitroxides
Pd2MnZ / T.R. McGuire ; E.L. Boyd1.5.5.3.3.3:
Oxy nitroxides
Au2MnZ / 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:
X2MnZ for X other than Co / 6.1.2.2:
Zn substituted Ni ferrite / 1.5.5.3.4.2:
FeM3Z / 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-xMnxSi / 6.1.2.4:
Dilute Mn and Co substitutions in Ni ferrite and Ni ferrite aluminate / 1.5.5.3.4.4:
Co2YZ 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:
Cu2MnZ / 6.1.3.1.2:
Equilibrium oxygen partial pressure / 1.5.5.6.1.2:
Lattice constants / 6.1.3.1.3:
CoTi1-xAlx / 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 (119Sn) / 1.5.5.7.1:
Thermal conductivity / 1.5.5.7.2.1:
X2Mnln with X = 1B, 8A element / 6.1.3.2.3:
Thermal expansion / 1.5.5.7.2.2:
X2MnSb, 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 (121Sb), X2MnSb, 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 Fe3Z / 6.1.3.2.7:
Reactivity and sintering / 1.5.5.7.6:
D03-L21 compounds Fe3-xYxSi with Y = 5A, 7A, 8A element / 6.1.3.3:
Mechanical properties / 1.5.5.7.7:
B2-L21 compounds Mn0.5V0.5-xAlx / 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 McXMf3 compounds / 6.1.3.4.3:
Seebeck effect / 1.5.6.3:
Magnetic and related data of McXMf3 compounds / 6.1.3.5:
Spontaneous magnetization / 1.5.6.3.1:
McXTi3 / 6.1.3.5.1:
Saturation moment at 0 K / 1.5.6.3.2:
McXCr3 / 6.1.3.5.2:
Magnetization as a function of temperature / 1.5.6.3.3:
McXM3 / 6.1.3.5.3:
Magnetization in the region of the Curie point / 1.5.6.3.4:
McXFe3 / 6.1.3.5.4:
Curie temperatures / 1.5.6.3.5:
McXCo3 / 6.1.3.6:
Magnetocrystalline anisotropy / 1.5.6.3.6:
McXNi3 / 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:
4.

図書
図書
4. Boron (v. 2)
edited by Gerhart K. Gaulé
出版情報: New York : Plenum Press, c1965-  v. <2- > ; 24 cm
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5.

図書
図書
5. Ferrous materials and metallurgy (1965 - 2017, 2)
edited by Japanese Standards Association
出版情報: Tokyo : Japanese Standards Association, [c1965-]  v. ; 22 cm
シリーズ名: JIS handbook
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6.

図書
図書
6. Organosilicon compounds (Vol. 1 - Vol. 6/3b)
Vladimír Bažant, Václav Chvalovský & Jiří Rathouský
出版情報: Prague : Pub. House of the Czechoslovak Academy of Sciences , New York : Academic Press, 1965-  v. ; 25 cm
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7.

図書
図書
7. Analytical chemistry of inorganic and organic compounds (v. 1 - v. 17)
Kolthoff, I. M. (Izaak Maurits), 1894- ; Elving, Philip Juliber, 1913- ; Sandell, E. B. (Ernest Birger), 1906-1984
出版情報: New York : Interscience Publishers, c1965-c1980  v. ; 25 cm
シリーズ名: Treatise on analytical chemistry / edited by I.M. Kolthoff and Philip J. Elving, with the assistance of Ernest B. Sandell ; pt. 2
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8.

図書
図書
8. Bericht über neuere Untersuchungen und Probleme aus der Theorie der algebraischen Zahlkörper. 2., durchgesehene Aufl (T.1/1a ; T.2)
von Helmut Hasse
出版情報: Würzburg ; Wien : Physica-Verlag, 1965  2 v ; 25 cm
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目次情報:
T. 1/1a. Klassenkörpertheorie/Beweise zu Teil 1
T. 2. Reziprozitätsgesetz
T. 1/1a. Klassenkörpertheorie/Beweise zu Teil 1
T. 2. Reziprozitätsgesetz
9.

図書
図書
9. Théorème d'Atiyah-Singer sur l'indice d'un opérateur différentiel elliptique. 2e éd. corr (fasc. 1 ; fasc. 2)
Cartan, Henri Paul, 1904- ; Schwartz, Laurent, 1915- ; École normale supérieure (France)
出版情報: Paris : Secrétariat mathématique, 1965  2 v. ; 28 cm
シリーズ名: Séminaire Henri Cartan ; 16e année, 1963/64
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10.

図書
図書
10. Pulsed neutron research : proceedings of the Symposium on Pulsed Neutron Research held by the International Atomic Energy Agency at Karlsruhe, 10-14 May 1965 (v. 1 ; v. 2)
Symposium on Pulsed Neutron Research ; International Atomic Energy Agency
出版情報: Vienna : International Atomic Energy Agency, 1965  2 v. ; 24 cm
シリーズ名: Proceedings series / International Atomic Energy Agency ; 104
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