Rado G.T. — Magnetism :: Электронная библиотека попечительского совета мехмата МГУ

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Rado G.T. — Magnetism

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Название: Magnetism

Автор: Rado G.T.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1963

Количество страниц: 623

Добавлена в каталог: 08.01.2009

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

"Labyrinth propagation"      467
$\gamma\rm-{Fe}_{2}{O}_{3}$ y-FeaOs particles      374—377
$\rm {CdCl}_{2}$ structure      18
$\rm {CdI}_{2}$ structure      18
$\rm {CrCl}_{2}$ structure      179—180
$\rm {CrCl}_{3}$ structure      18 187—188
$\rm {CrF}_{2}$ structure      180—181
$\rm {CrMn0}_{4}$ magnetic structure      196—197
$\rm {CrO}_{2}$ permanent magnet particles      377—378
$\rm {Cr}_{2}{CuO}_{4}$ magnetic structure      195—196
$\rm {FeCl}_{3}$ structure      18
$\rm {GdFeO}_{3}$ unit cell      5—7
$\rm {MgAl}_{2}{O}_{4}$ structure      7—10
$\rm {MnBr}_{2}$ crystal structure      182—184
$\rm {MnF}_{3}$ crystal structure      185—187
$\rm {NiCr}_{2}{O}_{4}$ tetragonal to cubic transition      50
$\rm {Ni}_{2}{In}$       15
$\rm {Pt}_{3}Fe$ magnetic structure      237
$\rm {ReO}_{3}$ crystal structure      5—7
$\rm {T}^{3/2}$ law      300—301
$\rm {U0}_{2}$ magnetic structure      194
A site      8
Abe, H.      80 112
Abel's, V. R.      430 (71) 462
Abeledo, C.      290 292 346
Abragam, A.      76 112
Abrahams, C.      412 (27) 414
Abrahams, S. C.      158 (27 28) 205 225 268
Acker, D. S.      81 112
Adams, C. R.      109 (124) 114
Ageev, N. V.      221 (15) 268
Aharoni, A.      338 349 355 356 19 19a) 358 19a 30a) 362 363 (369 15) 375 382 383 384 388 391 398 401 402 405 407 17) 408 409 412 27) 413 413 414 543 547 552
Akimoto, S.      207
Aleonard, R.      106 114 179 49) 193 206 207 442 463
Alikhanov, R. A.      189 (5) 206
Alloys, coexistence of ferromagnetic and antiferromagnetic regions      237—239
Alloys, disordered      229
Alnico permanent magnet alloys      384—386
Alperin, H. A.      250 (77) 256 257 259 269 344 350 458 464
Amar, H.      358 362 391 392
Ament, W. S.      304 (124) 347
Anderson, A. H.      466 (1) 477 521
Anderson, P. W.      47 61 82 83 96 98 112 193 207 343 349 576 596
Andersson, G.      55 (79) 61
Andra, W.      417 418 13) 461 472 522
Andresen, A. F.      58 (88) 62 251 252 253 257 259 269
Angle, cation-anion-cation      7
Anisotropy (ies), angular dispersion in Permalloy films      517—520
Anisotropy (ies), crystal      360—361
Anisotropy (ies), crystalline field      176—177
Anisotropy (ies), directed-pair, Permalloy films      470
Anisotropy (ies), dispersion in Permalloy films      477—479
Anisotropy (ies), energy, monocrystalline      397
Anisotropy (ies), exchange      238 323—344
Anisotropy (ies), exchange, anomalous losses      341—343
Anisotropy (ies), exchange, in oxidized thin cobalt films      336
Anisotropy (ies), exchange, stability      343—344
Anisotropy (ies), exchange, theories      337—344
Anisotropy (ies), in Ni-Fe films      472—473
Anisotropy (ies), interaction, single-domain particles      359—360
Anisotropy (ies), magneticrystalline, fine particle in superparamagnetic range      290—292
Anisotropy (ies), magnitude dispersion in Permalloy films      517—520
Anisotropy (ies), oblique incidence      474
Anisotropy (ies), of single domain particles      273—274 358—363
Anisotropy (ies), particle      358—363
Anisotropy (ies), shape      358—359
Anisotropy (ies), shape, in oblique incidence films      474—476
Anisotropy (ies), shape, in permanent magnet alloys      386
Anisotropy (ies), stress      361
Anisotropy (ies), surface      314—323
Anisotropy (ies), surface, Co-CoO      323—325
Anisotropy (ies), surface, from torque measurements on thin films      319—320
Anisotropy (ies), surface, interfacial crystallographic conditions      335—337
Anisotropy (ies), surface, internal of thin films      320—322
Anisotropy (ies), surface, materials      332—335
Anisotropy (ies), surface, shifted loop      327—330
Anisotropy (ies), surface, single domain particles      360
Anisotropy (ies), tensors, explicit form      173—175
Anisotropy (ies), uniaxial      471—472 479—482
Anisotropy (ies), unidirectional magnetic      238
Anisotropy (ies), variations, single domain particles      361—363
Antiferromagnets      84—103
Antiferromagnets, molecular field analysis      94—103
Antiferromagnets, nearest-neighbor interactions only      84—94
Antifiuorite structure      4—14
Archenhold, W. F.      370 (77) 392
Argyle, B. E.      107 (120) 114
Arnott, R. J.      7 (10) 49 51 52 59 61 588 597
Arrott, A.      222 224 235 268
Arthur, P.      377 (94) 393
Askqchenskii, A. A.      442 (126) 463
Atkins, K. R.      110 114
Atom, free      24—26
Atom, nonequivalent      203—204
Au-Co permanent magnet alloy      381—382
Au-Ni permanent magnet alloy      379—381
Azovtsev, V. K.      424 (62) 462
B site      8
Baba, P. D.      590 (91) 597
Babcock, K. R.      377 (96) 393
Bacher, R. F.      34 (38) 60
Bacon, G. E.      219 221 223 233 237 265 287 268
Bailey, P. C.      421 (56) 422 435 436 462
Baldwin, J. A.      528 (6) 551
Baldwin, M. E.      318 (164) 348
Ballhausen, C.      49 (61) 61
Ballman, A. A.      594 (103) 597
Balz, D.      110 (129) 114
Banewicz, J. J.      87 97 109 113 114
Banks, E.      570 (44) 588 595 596 597
Baran, W.      353 (9) 361 387 391
Barbier, J. — C.      106 114 179 206
Bassett, G. A.      309 (147) 348
Bate, G.      368 (70) 370 371 375 376 392 393
Bates, L. F.      374 (87a) 393 430 80 82) 442 462 463
Bauer, W. H.      590 597
Bean, C. P.      238 268 272 3) 275 276 277 279 288 289 290 291 292 293 294 296 304 305 308 316 323 330 336 337 338 342 343 344 345 346 347 349 356 357 359 360 362 364 368 372 373 391 392 All 413 414 416 435 442 461 463 543 552
Becker, J. J.      279 282 283 288 327 345 349 430 462
Behrendt, D. R.      240 269
Behringer, R. E.      68 112
Belov, N. V.      151 (11) 205 215 236 267
Belson, H. S.      587 (79) 597
Benard, J.      101 (79) 113 566 595
Benoit, R.      89 (49) 113
Benson, E. R.      81 (27) 112
Berkowitz, A. E.      277 (25) 280 35) 290 345 362 381 392 393
Bertaut, E. F.      12 (12b) 39 54 75) 58 59 60 61 160 32a) 169 191 10 11) 192 193 20) 195 19) 197 197 202 203 204 205 207 208 209
Bertaut, F.      151 (8 9 10 20) 162 163 169 176 179 197 199 202 205 206 208 209 566 595
Bethe — Peierls — Weiss method      89—92
Bethe, H.      299 301 347
Bickford, L. R.      158 (25) 205 574 596
Bierstedt, P. E.      81 (28) 112
Bioembergen, N.      343 (207) 350
Biorci, G.      364 (58) 392 430 463
Birefringence, magnetic      421—422
Bitter, F.      278 345
Bizette, H.      89 (51) 91 113 181 11) 189 206 207
Blackman, M.      419 (30 30a) 461
Bleaney, B.      76 78 112
Blinowski, K.      105 (105) 114 137 146
Bloch, F.      116 146 289 301 346 491 522
Bloch, line      435
Bloch, wall      491
Blois, M. S., Jr.      468 521
Bloor, D.      430 (83) 462
Blum, S.      571 (48) 596
Boersch, H.      420 (50 51) 424 65) 462 483 522
Bogolyubov, H. H.      135 (21a) 146
Bohr orbits, classical      24
Boltzmann distribution law      39

Bonding, cation-cation homopolar, in $\rm {VO}_{2}, {Ti}_{2}{O}_{3}, {V}_{2}{O}_{3}$       54—56
Bonding-band formation, $\gamma$ -manganese      56
Booth, J. G.      279 282 290 293 345
Bordreaux, L. N.      508 (61) 523
Borovik — Romanov, A. S.      189 (3 4) 191 206 207
Bowers, K. D.      76 78 112
Boyd, E. L.      299 (108) 347
Bozorth, R. M.      7 (9) 59 107 114 156 177 192 197 205 206 207 208 266 269 472 521
Bragg peaks, field effect on      124—125
Brass-iron permanent magnet alloy      381
Braun, P. B.      20 (18 19) 42 60 61 197 209 567 589 596 597
Brenner, S. S.      430 463
Breuer, W.      353 (9) 361 387 391
Briggs, S. H. C.      559 595
Brissonneau, P.      442 463
Briukhatov, N. L.      335 (197) 349
Brixner, L. H.      595 597
Broadway, L.      310 (150) 348
Brochet, P.      103 105 114
Brockhouse, B. N.      105 114 138 146 191 207 194 208 229 268
Broeder, J. J.      277 (28) 283 285 345 346
Brophy, J. E.      419 (32) 427 461
Brown — Morrish theorem      359
Brown's equations      396—409
Brown's paradox      356 411—413
Brown, F.      574 (51) 596
Brown, M. R.      108 114
Brown, P. J.      176 (44) 189 191 206 207 344 350 458 464
Brown, W. F., Jr.      273 275 277 299 316 344 345 346 348 352 353 355 356 359 360 40) 361 363 365 370 372 375 376 378 390 391 392 393 396 3) 397 398 6) 399 7a) 401 9a) 402 10) 407 408 9) 409 411 413 413 414 482 522 549 552
Bryan, J. M.      300 347
Buckley, H. E.      58 (70) 596
Buckling, magnetization      405
Burbank, R. D.      322 (169) 349 472 521
Burkard, E.      289 346
Bykov, V. N.      221 268
Cable, J. W.      102 (90) 114 125 146 180 181 182 184 17) 187 206 241 242 243 244 245 250 269
Cahn, J. W.      282 (37) 321 345 349
Calhoun, B. A.      158 (27 28) 205
Callaby, D. R.      418 (19) 420 461
Callen — Welton theory for susceptibility      132
Callen, H. B.      60 131 132 146 306 348
Campbell, R. B.      282 (43) 345 362 379 392 393
Carter, R. E.      334 344 349
Carter, W. S.      97 113
Casimir, H. B. G.      360 (41) 361 391
Casselman, T. N.      83 112
Cfchen, M. S.      353 (10) 389 391 473 474 22) 475 477 482 498 522
Charged sphere model      38
Chase, A. B.      436 (109) 463 594 597
Cheng, C. H.      292 346
Chesnut, D. B.      81 (29) 112
Chikazumi, S.      435 (101) 463
Child, H. R.      102 (81) 113 184 17) 186 206 241 245 70) 269
Chloroiridates      81—83
Chromites      569—570
Chromium magnetic structure      220—223
Chu, W. W. L.      478 522
Clogston, A. M.      420 (46) 448 462 464 576 62 63) 593 596 597
Cloud, W. H.      192 (16) 207 377 393
Clow, H.      430 (82) 462
Clumping, particle      293—294
Clusters isolated      67—84
Clusters thermodynamic properties      70 ff.
Co-Pt alloys      388
Cobalt ferrite growth      588—589
Coercivity, remanence      370
Cohen, J.      296 (102) 333 347
Coing — Boyat, J.      191 (2 6) 207
Coleman, R. V.      431 463
Coles, B.A.      S3 96 108 112 114 224 268
Collision(s) geometry, neutron and magnetic sytem      117—118
Collision(s), inelastic      136—141
Collision(s), inelastic, above Curie temperature      138—139
Colombani, A.      309 (140) 312 348
Compaan, K.      363 392
Compounds, metamagnetic      102
Compton, V. B.      266 (93) 269
Condon, E. U.      25 (25) 60 144 147
Conger, R. L.      533 (13) 540 547 551 552
Cooke, A. H.      82 (36) 83 112
Cooper, R.      335 (197) 349
Copper acetate monohydrate      77—80
Corciovei, A.      307 348
Coren, R.      309 (141) 348 419 522
Corliss, L. U.      57 (84) 61 97 102 113 151 205 193 20) 194 11) 195 4 5 10) 196 197 203 207 208 209 215 219 220 226 261 268 569 596
Cossee, P.      91 105 113
Coulson, C. A.      26 (32) 60
Coupling of system modes      158 177—179
Cowgill      482 (35) 522
Cox, A.      286 346
Cox, D. E.      17 (14b) 60
Cox, N. L.      377 (94) 393
Craig, D. P.      80 112
Craik, D. J.      374 388 389 393 416 417 418 10) 430 435 461 462 463
Crangle, J.      237 268 279 282 290 293 345
Creer, K. M.      296 333 347
Cribier, D.      130 (15b 15c) 138 140 30) 144 145 146 147
Crittenden, E. C.      289 (73) 310 311 346
Crocket, J. C.      594 (103) 597
Croft, W. J.      7 (10) 52 59 61 570 596
Cross section, differential, for emission of outgoing neutron      118 120
Cross section, diffracted neutron, from paramagnetic ion      215—216
Cross section, for ionic spin systems      122—123
Cross section, for metals and nonmetals      121—122
Cross section, for unpolarized neutrons      121—125
Crowther, T. S.      466 (1) 477 478 517 519 521 522
Crystal growth, Bridgeman — Stockbarger method      582
Crystal growth, Czochralski method      581—582
Crystal growth, flame fusion method      582—584 590
Crystal growth, flux method      584—585
Crystal growth, from the melt      581—584
Crystal growth, gaseous diffusion method      586—587
Crystal growth, hydrothermal method      586
Crystal growth, Remeika method      589
Crystal growth, single, of magnetic materials      580—595
Crystal growth, Verneuil method      582—584 590
Crystal structure      1—24
Crystal structure, carbonates of bivalent transition elements      188—189
Crystal structure, copper acetate monohydrate      79
Crystal structure, cubic      2—14
Crystal structure, cubic, antifluorite      4—14
Crystal structure, cubic, chalcopyrite      4
Crystal structure, cubic, ferrospinels      10
Crystal structure, cubic, garnet      11—14
Crystal structure, cubic, perovskite      5—7
Crystal structure, cubic, pyrite      10—11
Crystal structure, cubic, rocksalt      2—4
Crystal structure, cubic, sphalerite      4
Crystal structure, cubic, spinels      7—10
Crystal structure, cubic, zincblende      4
Crystal structure, hexagonal      14—22
Crystal structure, hexagonal, calcite      19—20
Crystal structure, hexagonal, corundum      16—18 190—193
Crystal structure, hexagonal, ilmenite      18
Crystal structure, hexagonal, layer structures      181—182
Crystal structure, hexagonal, magnetoplumbite      20—22
Crystal structure, hexagonal, wurzite      16
Crystal structure, sulfates of bivalent transition elements      189—191
Crystal structure, tetragonal      22—24
Crystal structure, tetragonal, rutile      22—24
Crystal structure, trifluorides      184—185
Cu-Fe-Ni alloys      386—387
Cummings, U. K.      318 (164) 348
Curie temperature of thin films      299 ff.
Curling, magnetization      405
Cylinder, infinite circular, in a uniform field      402—407
Czochralski, J.      581 597
d wave functions, zero-order, angular dependence for      31—32
Dabosi, F.      430 (85) 462
Damping, critical, in Permalloy films      509

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