Volume 19 of Group III (Crystal and Solid State Physics) deals with the magnetic properties of metals, alloys and metallic compounds. The amount of information available in this field is so substantial that several subvolumes are needed to cover it all. Subvolumes III/19a through III/19f treat the intrinsic magnetic properties, i.e. those magnetic properties which depend only on the chemical composition and the crystal structure. So far, subvolumes III/19a, III/19b, III/19c, III/19e1 and III/19e2 have appeared. III/19d1 and III/19d2 will follow shortly. Data on the properties that depend on the preparation of the samples measured, as for instance, thin films, amorphous alloys or the magnetic alloys used in technical applications, are being compiled in the last subvolumes of III/19: III/19g (Thin Films) which came out in 1988, the present subvolume III/19h which covers the magnetic properties of liquid quenched alloys containing transition elements, and III/19i.
Author(s): A.R. Ferchmin, S. Kobe, M. Sostarich
Series: Landolt-Börnstein: Numerical Data and Functional Relationships in Science and Technology - New Series / Condensed Matter Vol 19
Edition: 1
Publisher: Springer
Year: 1991
Language: English
Pages: 354
front-matter.pdf......Page 0
6.1.1.2 Preparation methods......Page 11
6.1.1.3 Structure......Page 12
6.1.1.4 How to find the data of a specific alloy in this chapter?......Page 13
Cr-Ge - Co-Nb-B......Page 14
Co-Nb-Ru - Co-Fe-Si-C......Page 28
Co-Fe-Y - Co-Fe-Ni-Mn-B-Si......Page 43
6.1.3 Paramagnetic properties......Page 57
6.1.3.1 Cr alloys......Page 58
6.1.3.2 Mn alloys......Page 59
6.1.3.3 Fe alloys......Page 62
6.1.3.4 Co alloys......Page 64
6.1.3.5 Ni alloys......Page 66
6.1.3.6 Cu alloys......Page 72
6.1.3.7 Fe-Cr and Fe-Mn alloys......Page 73
6.1.3.8 Ni-Ti, Ni-V, Ni-Cr and Ni-Mn alloys......Page 76
6.1.3.9 Fe-Ni and Co-Ni alloys......Page 77
6.1.3.10 Cu-Mn, Fe-Cu and Ni-Cu alloys......Page 79
6.1.4.2.2 Hall effect......Page 80
6.1.4.2.6 Mössbauer effect......Page 81
6.1.4.3.1 Zero magnetization at critical concentration......Page 82
6.1.4.3.2.2 Coordination bonding model......Page 83
6.1.4.4.1.1 Fe alloys and Co alloys......Page 84
6.1.4.4.1.3 Fe-Cr and Fe-Mn alloys......Page 87
6.1.4.4.1.4 Co-Fe alloys......Page 88
6.1.4.4.1.5 Fe-Ni alloys......Page 89
6.1.4.4.2 Intermediate-temperature range......Page 91
6.1.5.2.1 Thermomagnetic measurements......Page 92
6.1.5.3 Critical exponents......Page 93
6.1.6 Magnetic moment, saturation magnetization, Curie temperature - Tables and Figures......Page 97
Tables 21 - 22......Page 98
Figs. 69 - 122......Page 108
Figs. 123 - 170......Page 121
6.1.6.2 Co alloys......Page 133
6.1.6.3 Ni alloys......Page 145
6.1.6.4 Fe-Ti alloys......Page 146
6.1.6.5 Fe-V alloys......Page 149
6.1.6.6 Fe-Cr alloys......Page 150
6.1.6.7 Fe-Mn alloys......Page 157
6.1.6.8 Co-Ti alloys......Page 160
6.1.6.10 Co-Cr alloys......Page 161
6.1.6.11 Co-Mn alloys......Page 162
6.1.6.12 Co-Fe alloys......Page 163
6.1.6.13 Ni-Mn alloys......Page 172
6.1.6.14 Fe-Ni alloys......Page 173
6.1.6.15 Co-Ni alloys......Page 187
6.1.6.16 Cu-Mn alloys......Page 188
6.1.6.17 Fe-Cu alloys......Page 189
6.1.6.19 Co-Fe-Cr alloys......Page 190
6.1.6.20 Co-Fe-Mn alloys......Page 191
6.1.6.22 Fe-Ni-Cr alloys......Page 192
6.1.6.24 Co-Fe-Ni alloys......Page 194
6.1.6.25 Alloys containing four TM elements......Page 197
51B1 - 82S8......Page 198
82S9 - 89Y1......Page 208
6.2.1.1 General......Page 218
6.2.1.2 Survey......Page 224
6.2.2.1 Magnetic moments, ordering temperatures and type of magnetic order......Page 231
6.2.2.2 Temperature dependence of magnetization......Page 236
6.2.2.3 High-field magnetization and susceptibility......Page 238
6.2.2.4 Mössbauer effect......Page 241
6.2.2.5 Ferromagnetic resonance properties......Page 251
6.2.2.6 Magnetovolume effects......Page 253
6.2.3.1 Magnetization, magnetic moments, ordering temperatures and type of magnetic order......Page 255
6.2.3.2 Temperature dependence of magnetization and susceptibility......Page 263
6.2.3.3 High-field magnetization and susceptibility......Page 271
6.2.3.4 Hyperfine interactions: Mössbauer effect and nuclear magnetic resonance......Page 274
6.2.3.5 Ferromagnetic resonance and magnetic anisotropy......Page 276
6.2.3.6 Magnetovolume effects......Page 277
6.2.3.7 Magnetoresistivity......Page 280
6.2.3.8 Scaling behaviour and critical exponents......Page 281
6.2.4.1 Magnetization, magnetic moments, ordering temperatures and type of magnetic order......Page 284
6.2.4.2 Temperature dependence of magnetization and susceptibility......Page 292
6.2.4.3 High-field magnetization and susceptibility. Anisotropy constants. Magnetoresistivity. Magnetostriction......Page 299
6.2.4.4 Mössbauer effect......Page 303
6.2.5.1 Magnetization, magnetic moments, ordering temperatures and type of magnetic order......Page 307
6.2.5.2 Temperature dependence of magnetization and susceptibility......Page 314
6.2.5.3 High-field magnetization and susceptibility. Magnetic anisotropy......Page 326
6.2.5.4 Mössbauer effect......Page 331
6.2.5.5 Magnetoresistivity......Page 332
6.2.5.6 Scaling behaviour and critical exponents......Page 334
6.2.6.1 Magnetization, magnetic moments, ordering temperatures and type of magnetic order......Page 337
6.2.6.2 Temperature dependence of magnetization and susceptibility......Page 341
6.2.6.3 Mössbauer effect and magnetic anisotropy......Page 345
6.2.7 Alloy series - variation of some magnetic properties with the rare earth species......Page 346
6.2.8 References for 6.2......Page 351