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Part A
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Editor(s):
K.-H. Hellwege
,
A. M. Hellwege
Publication date
(Print):
1970
Publisher:
Springer-Verlag
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ISBN (Print):
3-540-04898-7
Publication date (Print):
1970
DOI:
10.1007/b19968
SO-VID:
cadbe2af-44a8-405a-a3c9-0c65afd68342
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Book chapters
pp. 1
1.0.2 General remarks
pp. 2
1.0.3 List of symbols and abbreviations
pp. 3
1.1.1 Wüstite Fe x O and wüstite with substitutions
pp. 7
1.1.1.1 References for 1.1.1
pp. 8
1.1.2 Hematite alpha-Fe22}O3 and hematite with substitutions
pp. 16
1.1.2.1 References for 1.1.2
pp. 18
1.1.3 Maghemite gamma-Fe22}O3
pp. 20
1.1.3.1 References for 1.1.3
pp. 21
Tables 8 - 22, Figs. 67 - 89
pp. 31
Tables 23 - 32, Figs. 90 - 114
pp. 38
1.2.1 References for 1.2
pp. 41
2.0 Preface
pp. 44
2.1.0 Introduction
pp. 46
2.1.1 NaCl-type compounds
pp. 47
2.1.1.1 Crystallographic, magnetic, and electrical properties of NaCl-type compounds
pp. 51
2.1.1.2 Molecular field exchange parameters J1 and J2
pp. 61
2.1.3 Crystallographic, magnetic, and electrical properties of compounds with miscellaneous structures
pp. 64
2.2.0 Introduction
pp. 66
2.2.1 NaCl-type compounds
pp. 67
2.2.1.1 Crystallographic, magnetic, optical, and electrical properties of compounds with divalent rare earth elements
pp. 70
2.2.1.2 Exchange constants, hyperfine fields, anisotropies, and pressure dependence of Curie temperature in Eu chalcogenides
pp. 71
2.2.1.3 Crystallographic, magnetic, optical, and electrical properties of compounds with trivalent rare earth elements
pp. 86
2.2.1.4 Crystallographic, magnetic, and electrical properties of ternary systems with NaCl-type structure
pp. 89
2.2.2 Th3P4-type compounds
pp. 90
2.2.2.1 Crystallographic, magnetic, electrical, and optical properties of compounds with Th3P4-type structure
pp. 94
2.2.3 Crystallographic, magnetic, and electrical properties of trivalent oxides with Mn2O3 structure
pp. 99
2.2.4 Crystallographic, magnetic, and electrical properties of miscellaneous compounds
pp. 105
2.3 References for 2.1 and 2.2
pp. 110
2.4.0 Introduction
pp. 111
2.4.1 Crystallographic, magnetic, and electrical properties of NaCl-type compounds
pp. 114
2.4.2 Crystallographic, magnetic, and electrical properties of compounds with miscellaneous structures
pp. 116
2.5.0 Introduction
pp. 117
2.5.1 Crystallographic, magnetic, and electrical properties of NaCl-type compounds
pp. 120
2.5.2 Crystallographic, magnetic, and electrical properties of compounds with miscellaneous structures
pp. 125
2.6 References for 2.4 and 2.5
pp. 126
3.0.1 General remarks
pp. 129
3.0.2 Symbols and units used in tables and figures
pp. 131
3.1.1 The ideal perovskite structure
pp. 132
3.1.2.1 Tolerance factor
pp. 134
3.1.2.2 O-orthorhombic structure
pp. 135
3.1.2.3 Rhombohedral structures
pp. 136
3.1.3.1 Crystal-field theory
pp. 140
3.1.3.2 Jahn-Teller distortions
pp. 141
3.1.3.3 Spin-orbit coupling
pp. 142
3.1.4.2 Distortions due to B-X bonding
pp. 144
3.1.4.3 Distortions due to core polarization: Pb2+ and Bi3+
pp. 145
3.1.4.4 Competitive phases
pp. 146
3.1.5.2 Different B atoms
pp. 147
3.1.6 First-order magnetic transition in McXM 3 f perovskites
pp. 162
Table 2, Part 2
pp. 176
Table 2, Part 3
pp. 190
3.2.1.2 The bronze structures
pp. 191
3.2.2.1 Compounds ABX3--x
pp. 192
3.2.3.1 Bismuth compounds
pp. 193
3.2.4 Data: Crystallographic properties of non-ABX3 compounds with perovskite-related structure
pp. 207
3.3.1 Phenomenological exchange Hamiltonian
pp. 208
3.3.2.1 Isotropic superexchange
pp. 211
3.3.2.2 Double exchange
pp. 212
3.3.3.2 Anisotropy considerations
pp. 213
3.3.3.3 Antisymmetric superexchange
pp. 214
Table 6, Part 1
pp. 228
Table 6, Part 2
pp. 242
Table 6, Part 3
pp. 255
3.4.2.1 Construction of an electronic phase diagram
pp. 256
3.4.2.2 Distinguishing physical properties imparted by different electronic phases
pp. 259
3.4.3 Nonintegral n l = 1 ± c
pp. 261
3.4.4 Energy diagrams for ABX3 perovskites
pp. 263
3.5.1 Discussion of results
pp. 266
3.5.2.1 Crystallographic properties (Tab. 9a)
pp. 269
3.5.2.2 Magnetic properties (Tab. 9b)
pp. 275
Ab1 - Ha10
pp. 289
Ha11 - Ro12
pp. 303
Ro13 - Zo2
pp. 315
4.0.1 General remarks
pp. 317
4.0.2 List of symbols
pp. 319
A. Yttrium and rare earth iron garnets
pp. 320
B. Substituted iron garnets
pp. 323
A. Static paramagnetic susceptibility above the ordering temperature
pp. 324
B. Magnetic susceptibility of below the Curie temperature
pp. 325
C. Permeability spectra
pp. 326
B. Rare earth ions in the iron garnet
pp. 327
A. The locations of ions in the unit cell of the garnet lattice
pp. 328
C. Interionic spacings and angles in yttrium iron garnet
pp. 329
D. Lattice parameters and densities of garnet systems
pp. 330
A. Effective and apparent g-factors of ferrimagnetic garnets
pp. 331
B. Anisotropy constants from ferrimagnetic resonance experiments
pp. 332
C. Effect of rare earth impurities on the field for resonance in YIG at low temperatures
pp. 334
E. Dynamic shift
pp. 335
A. Small signal ferrimagnetic resonance linewidths
pp. 339
B. High power effects
pp. 340
B. Comparison with experiment
pp. 341
B. Spin wave lifetimes in YIG
pp. 342
A. Absorption coefficients of yttrium and rare earth iron garnets
pp. 344
B. Faraday rotation in yttrium and rare earth iron garnets
pp. 345
A. Elastic properties of garnets
pp. 346
B. Magnetoelastic properties of the iron garnets
pp. 348
A. Specific heat of YIG
pp. 349
B. Specific heat of the rare earth iron garnets
pp. 351
A. Resonance frequencies omega of Fe57 in yttrium, lutecium, and rare earth iron garnets
pp. 352
C. Nuclear relaxation of Fe57 in YIG
pp. 353
B. Magnetostatic modes in YIG
pp. 354
4.16 References
pp. 360
4.17 Literature 1966 - 1969
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