As an MSEE working as an assistant professor at a university, it is vital to be able to anwser a broad range of questions. These questions beeing your own or your students. This requires that you have ascess to a wide range of text-books. I have found Chikazumi's book very usefull as a reference, AND it is written in the SI-system of units!
Author(s): Soshin Chikazumi
Series: The International Series of Monographs on Physics
Edition: 2
Publisher: Oxford University Press, USA
Year: 2009
Language: English
Pages: 668
Contents......Page 8
Part I: Classical Magnetism......Page 14
1.1 Magnetic moment......Page 16
1.2 Magnetic materials and magnetization......Page 20
1.3 Magnetization of ferromagnetic materials and demagnetizing fields......Page 24
1.4 Magnetic circuit......Page 30
1.5 Magnetostatic energy......Page 35
1.6 Magnetic hysteresis......Page 40
Problems......Page 44
References......Page 45
2.1 Production of magnetic fields......Page 46
2.2 Measurement of magnetic fields......Page 52
2.3 Measurement of magnetization......Page 55
References......Page 62
Part II: Magnetism of Atoms......Page 64
3.1 Structure of atoms......Page 66
3.2 Vector model......Page 72
3.3 Gyromagnetic effect and ferromagnetic resonance......Page 81
3.4 Crystalline field and quenching of orbital angular momentum......Page 87
Problems......Page 94
References......Page 96
4.1 Nuclear magnetic moments and related experimental techniques......Page 97
4.2 Neutron diffraction......Page 106
4.3 Muon spin rotation (μSR)......Page 113
References......Page 117
Part III: Magnetic Ordering......Page 118
5.1 Diamagnetism......Page 120
5.2 Paramagnetism......Page 123
Problems......Page 129
References......Page 130
6.1 Weiss theory of ferromagnetism......Page 131
6.2 Various statistical theories......Page 137
6.3 Exchange interaction......Page 142
References......Page 146
7.1 Antiferromagnetism......Page 147
7.2 Ferrimagnetism......Page 155
7.3 Helimagnetism......Page 161
7.4 Parasitic ferromagnetism......Page 164
7.5 Mictomagnetism and spin glasses......Page 166
Problems......Page 171
References......Page 172
Part IV: Magnetic Behavior and Structure of Materials......Page 174
8.1 Band structure of metals and their magnetic behavior......Page 176
8.2 Magnetism of 3d transition metals and alloys......Page 186
8.3 Magnetism of rare earth metals......Page 194
8.4 Magnetism of intermetallic compounds......Page 201
References......Page 206
9.1 Crystal and magnetic structure of oxides......Page 210
9.2 Magnetism of spinel-type oxides......Page 212
9.3 Magnetism of rare earth iron garnets......Page 220
9.4 Magnetism of hexagonal magnetoplumbite-type oxides......Page 223
9.5 Magnetism of other magnetic oxides......Page 228
References......Page 233
10 MAGNETISM OF COMPOUNDS......Page 235
10.1 3d Transition versus Illb Group magnetic compounds......Page 236
10.2 3d–lVb Group magnetic compounds......Page 239
10.3 3d–Vb Group magnetic compounds......Page 241
10.4 3d–Vlb Group magnetic compounds......Page 245
10.5 3d–Vllb (halogen) Group magnetic compounds......Page 247
10.6 Rare earth compounds......Page 248
References......Page 249
11 MAGNETISM OF AMORPHOUS MATERIALS......Page 252
11.1 Magnetism of 3d transition metal-base amorphous materials......Page 253
11.2 Magnetism of 3d transition plus rare earth amorphous alloys......Page 256
Problem......Page 257
References......Page 258
Part V: Magnetic Anisotropy and Magnetostriction......Page 260
12.1 Phenomenology of magnetocrystalline anisotropy......Page 262
12.2 Methods for measuring magnetic anisotropy......Page 269
12.3 Mechanism of magnetic anisotropy......Page 279
12.4 Experimental data......Page 287
References......Page 309
13.1 Magnetic annealing effect......Page 312
13.2 Roll magnetic anisotropy......Page 322
13.3 Induced magnetic anisotropy associated with crystallographic transformations......Page 331
13.4 Other induced magnetic anisotropies......Page 342
References......Page 352
14.1 Phenomenology of magnetostriction......Page 356
14.2 Mechanism of magnetostriction......Page 362
14.3 Measuring technique......Page 370
14.4 Experimental data......Page 372
14.5 Volume magnetostriction and anomalous thermal expansion......Page 376
14.6 Magnetic anisotropy caused by magnetostriction......Page 389
14.7 Elastic anomaly and magnetostriction......Page 392
References......Page 394
Part VI: Domain Structures......Page 398
15.1 History of domain observations and powder-pattern method......Page 400
15.2 Magneto-optical method......Page 406
15.3 Lorentz electron microscopy......Page 407
15.4 Scanning electron microscopy......Page 409
15.5 X-ray topography......Page 414
15.6 Electron holography......Page 415
References......Page 418
16.1 Micromagnetics......Page 420
16.2 Domain walls......Page 424
16.3 180° walls......Page 430
16.4 90° walls......Page 435
16.5 Special-type domain walls......Page 441
References......Page 445
17.1 Magnetostatic energy of domain structures......Page 446
17.2 Size of magnetic domains......Page 452
17.3 Bubble domains......Page 458
17.4 Stripe domains......Page 463
17.5 Domain structure of fine particles......Page 466
17.6 Domain structures in non-ideal ferromagnets......Page 470
Problems......Page 476
References......Page 477
Part VII: Magnetization Processes......Page 478
18.1 Magnetization curve and domain distribution......Page 480
18.2 Domain wall displacement......Page 493
18.3 Magnetization rotation......Page 504
18.4 Rayleigh loop......Page 511
18.5 Law of approach to saturation......Page 516
18.6 Shape of hysteresis loop......Page 522
References......Page 529
19.1 Metamagnetic magnetization processes......Page 531
19.2 Spin flop in ferrimagnetism......Page 534
19.3 High-field magnetization process......Page 542
19.4 Spin reorientation......Page 546
Problems......Page 548
References......Page 549
20.1 Magnetic after-effect......Page 550
20.2 Eddy current loss......Page 564
20.3 High-frequency characteristics of magnetization......Page 569
20.4 Spin dynamics......Page 575
20.5 Ferro-, ferri-, and antiferro-magnetic resonance......Page 580
20.6 Equation of motion for domain walls......Page 587
Problems......Page 593
References......Page 594
Part VIII: Associated Phenomena and Engineering Applications......Page 596
21.1 Magnetothermal effects......Page 598
21.2 Magnetoelectric effects......Page 603
21.3 Magneto-optical phenomena......Page 609
References......Page 611
22.1 Soft magnetic materials......Page 613
22.2 Hard magnetic materials......Page 618
22.3 Magnetic memory and memory materials......Page 621
References......Page 626
Solutions to problems......Page 628
Appendix 1. Symbols used in the text......Page 641
Appendix 2. Conversion of various units of energy......Page 644
Appendix 3. Important physical constants......Page 645
Appendix 4. Periodic table of elements and magnetic elements......Page 646
Appendix 5. Conversion of magnetic quantities - MKSA and CGS systems......Page 651
Appendix 6. Conversion of various units for magnetic field......Page 652
C......Page 654
F......Page 655
M......Page 657
N......Page 658
S......Page 659
Z......Page 660
C......Page 662
F......Page 663
L......Page 664
M......Page 665
P......Page 666
S......Page 667
Z......Page 668
