Cracknell A.P., Wong K.C. — The Fermi Surface: Its Concept, Determination and Use in the Physics of Metals :: Электронная библиотека попечительского совета мехмата МГУ

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Cracknell A.P., Wong K.C. — The Fermi Surface: Its Concept, Determination and Use in the Physics of Metals

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Название: The Fermi Surface: Its Concept, Determination and Use in the Physics of Metals

Авторы: Cracknell A.P., Wong K.C.

Аннотация:

Everyone knows what a metal is and can describe many of its characteristics. It is safe to say, however, that few people would define a metal as "a solid with a Fermi surface". This may nevertheless be the most meaningful definition of a metal that one can give today; it represents a profound advance in the understanding of why metals behave as they do. The concept of the Fermi surface, developed by quantum physics, provides a precise explanation of the main physical properties of metals: their conduction of electricity and heat, their
hardness and ductility, their lustrous appearance and so on.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 1st edition

Год издания: 1973

Количество страниц: 565

Добавлена в каталог: 09.08.2009

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

Предметный указатель

Dawton, R. H.      465
De Benedetti, S.      182 184 262
De Boer, J. H.      507
De Haas — Van Alphen effect      24 146 221—228 238 375 376 377 378 395 398 399
de Haas — van Alphen effect, and mean free paths      478
de Haas — van Alphen effect, and pressure-dependence of the Fermi surface      512
de Haas — van Alphen effect, for dilute alloys      311 496
de Haas — van Alphen effect, for metallic compounds      484 488 490
de Haas — van Alphen effect, for particular metallic elements      259 261 263 266—267 273 275 276 282 283 287 292 295 298 299 302 303 308 309 311 320—21 322 325 327 329 330 337 338 342 345 346 350 351 352 356 358 360 362 365 367 368 371—373 374
De Haas, W. J.      223 224
De Marco, J. J.      144 364
De Vroomen, A. R.      297 298 377 437
De Witt, J. S.      125
Debye length      408—409
Debye, P. P.      408 427 428 431
Dederichs, P. H.      250
Deegan, R. A.      345 403
Degeneracies      27 31 32 33 43—46 56 120 142 196—197 295 317—318 346 352 356 364 372 387
Dekhtyar, I. Ya.      184 469
Density of states      118—123 147 156—165 167 313 410 416
Desalvo, A.      260
Devillers, M. A. C.      298
Dhillon, J. S.      303
Dick, B. J.      436
Dicke, D. A.      165
Dickey, J. M.      477
Dilute alloys      492—507
Dimmock, J. O.      138 377 387 390 392 393
Dingle temperature      226—227
Dingle, R. B.      188 190 226 234
Dirac equation      128—136
Dirac, P. A. M.      129
Direct properties      see “Microscopic properties”
Disordered alloys      492—507
Distribution function      188 419 470—474
Ditlefson, E.      236
Dixon, A. E.      375
Dixon, M.      164
Dmitrenko, I. M.      70
Doi, H.      395
Dolling, G.      441
domains      352
Donaghy, J. J.      262
Doniach, S.      392
Donovan, B.      435 438 455
Dooley, J. W.      478
Doppler-shifted cyclotron resonance      208 413
Double hexagonal close-packed structure      378—379 393
Double-zone scheme      46 66 141
Dow, J. D.      477
Dresselhaus, G.      224 292
Dresselhaus, M. S.      293
Drickamer, H. G.      252 263 271 511
Dubrovskaya, A. E.      305
Dulong and Petit's law      425
Dumb-bell      361 399
Duncanson, W. E.      174
Dunifer, G.      424
Dunsworth, A.      395
Dupree, R.      201
Dynamical, effective mass      22 23 203 303—304
Dynamical, matrix      429—430
Dynes, R. C.      466
Dysprosium      378 379 380 388 391 392 393 see
Dzyaloshinskii, I. Ye.      463
Easterling, V. J.      322
Eastman, D. E.      158 160
Eck, T. G.      325
Eckstein, S. G.      245
Eckstein, Y.      208 245 248 249 287 308 478
Edel'man, V. S.      224 306
Edwards, L. R.      392
Effective, electrons      187—189
Effective, mass      see “Cyclotron mass dynamical thermal
Effective, zone      188—189
Egorov, V. S.      263 349
Ehrenreich, H.      113 114-5 184 364 370 503
Eigenfunctions, eigenvalues      51 62 see
Einstein temperature      426
Einstein, A.      425 427
Elasticity      403
Electrical conductivity, electrical resistivity      210 233—235 302 319 391 397 410 424 464 466 469—471 475 496 510—512 see Schubnikow
Electron. electron interactions      112 148 165 170 403 405—424 453 464 466 475—476
Electron. magnon interactions      397 469
Electron. phonon interactions      112 148 165 170 250 397 403 424 445—469 475—477
Electron/atom ratio      315 318 493 496 497 502
Electrons      1 7 15 18 24 25 264 265 272 280—281 287 288 290 293 294 298 303 306 310 311 324—327 329—330 332 334—335 336—341 344 348 355—356 360—361 366—367 374 375 376—377 391 392 394 487—488 490—491 494 511 see effective effective electron-electron electron-phonon Fermi free-electron
Electrons, Compton scattering      170—176
Electrons, conduction electrons      71 75 81 91—92 101 103 118 232 245 294 313 315 386 400—482 490 494 496 497
Electrons, cyclotron resonance      201—205
Electrons, Hall effect      214—215
Electrons, in magnetic fields      190—201
Electrons, in rare-earth metals      382—385
Electrons, interactions      147—148 400—482
Electrons, ion core electrons      71 76 81 91—92 101 103
Electrons, on the Fermi surface      145
Eliashberg, G. M.      453
Elinson, M. I.      239
Elliott, R. J.      45 138 141 391 393
Ellipsoid      303—304 306—308 310 340 343 345 346 362 371 376 394 399 497
Elliptic limiting point      238
Empty lattice, model      26 58 see
Empty lattice, test      87
Energy band, energy level      32 40 49 53 54 55 76 431 see
Erbium      378 379 380 392 393 see
Eremenko, V. V.      223 333
Erskine, J. C.      184
Esaki, L.      162
Europium      378 380 385 386 395 396 see
Euwema, R. N.      125
Evenson, W. E.      393
Exchange energy      71 76 345 392 493
Exciton      509
Extended zone scheme      62 66 118 198
F0rsvoll, K.      237
Fabian, D. J.      157
Face-centred cubic structure      34—42 51—57 62 64 65 113 256 263 282 301
Faddeyev, D. K.      43
FaFko, V. L.      249
Fal'kovskiT, L. A.      300 306 511
Falicov, L. M.      viii 76 77 78 100 142 197 220 224 259 265 266 267 305 308 309 310 311 318 326 327 352 358 373 466 467
Fate, W. A.      459
Fawcett, E.      190 204 349 351 365 370
Fermi energy      19 60 117 383—385 386 509
Fermi liquid      418 423
Fermi surface      vii 19—21 23 24 72 117 143 400 476—477 480 see
Fermi surface, and physical properties      404—405
Fermi surface, and superconductivity      184 250 467—648
Fermi surface, and thermoelectric power      482
Fermi surface, effect of electron-electron interactions      416
Fermi surface, effect of electron-phonon interactions      452 459—460
Fermi surface, experimental determination      145—152 183 187 189—190 205—206 213—218 223 227—228 238 242—244 245—247 250—252 437
Fermi surface, for alloys      483—488 490—492 494 497 499—502 504—505
Fermi surface, for particular metallic elements      256—311 319—399
Fermi surface, free-electron model      58—70
Fermi surface, parametrization      99 123—127 321 322
Fermi surface, theoretical determination      see “Band structure”
Fermi surface, variation of relaxation times and mean free paths      478
Fermi velocity      248 478
Fermi — Dirac distribution      19 23 421—422 467 471 506
Ferreira, L. G.      306
Ferrell, R. A.      184
Ferrimagnetic ordering      380—381
Ferromagnetic ordering      184 363 365 368 379—381 388 397
Fesenko, E. P.      239
Fetter, A. L.      417
Firsov, Yu. A.      229
First sound      418
Fisher, L. M.      239 511
Fleming, G. S.      332 333 334 379 393 394 395

Fletcher, G. C.      73 359
Flippen, R. B.      380
Foldy, L. L.      227
Fomin, N. V.      455
Foner, S.      279 281 282
Foo, E. N.      424
Force constants      429 432 435
Fourier-transformed dynamical matrix      431—432
Francium      256
Frank, V.      487
Frederikse, H. P. R.      224 225 229 302
Free-electron approximation      26 46—70 119 178 312
Free-electron approximation, density of states      122
Free-electron approximation, for $Fm3m({O}^{5}_{h})$       51—57 64 65 66 268 275 298 319 321
Free-electron approximation, for $Im3m({O}^{9}_{h})$       64 66 67 272 344
Free-electron approximation, for $\beta$ -brass      485 488
Free-electron approximation, for ${AuSb}_{2}$       490—492
Free-electron approximation, for ${P6}_{3}/mmc({D}^{4}_{6h})$       64 68 265 284 324 328 331 337 338
Free-electron approximation, for antimony      305
Free-electron approximation, for arsenic      306
Free-electron approximation, for bismuth      305
Free-electron approximation, for cadmium      69—10 324—325 332
Free-electron approximation, for gallium      278 280
Free-electron approximation, for indium      283
Free-electron approximation, for mercury      329
Free-electron approximation, for scandium      331
Free-electron approximation, for sodium      49
Free-electron approximation, for tin      294 296
Free-electron approximation, for titanium      337—335
Free-electron approximation, for uranium      398
Free-electron approximation, for yttrium      331
Free-electron approximation, for zinc      69—70 324—325 332
Free-electron approximation, for zirconium      337—335
Free-electron approximation, paramagnetic susceptibility      168
Freeman, A. J.      144 364 377 387 390 392 393
Frei, V.      43
Friedel, J.      506
Frobenius, F. G.      45
Frohlich, H.      462 463 465
Fryer, E. M.      234
Fuchs, K.      234
Fujii, G.      612
Fujiwara, K.      183
Fukumoto, A.      282
Fundamental unit cell      4 14
Furdyna, A. M.      377
Furdyna, J. K.      293
Fusion curves      396
G shift      201
GaAS      308
Gadolinium      378 379 380 386 388 392 393 395 see
Gait, J. K.      327
Galasiewicz, Z.      461
Gallina, V.      455
Gallium      59 207 230 232 237 274 278—282 403
Galvanomagnetic properties      210—220 283 287 303 308 309 325 327 345 497 see magnetoresistance”
Gantmakher effect      see “Radio-frequency size effects”
Gantmakher, V. F.      240 243 244 284 294
gaps      358
Garcia, N.      239
Garcia-Moliner, F.      125
Gardner, W. E.      253
Garg, J. C.      183
Garland, J. C.      476
GaTdukov, Yu. P.      70 276 287 295 299 321 322
Geldart, D. J. W.      176
Germanium      255 288 308
Gerritsen, A. N.      224
Gibbons, D. F.      224 326 327
Girvan, R. F.      351
Givens, M. P.      152
Gliick, M.      43
Global Properties      see “Macroscopic properties”
Gold      126 158 189 234 255 312 319 321—323 403 480 495 501
Gold, A. V.      141 294 296 296 298 299 300 351 365 367 370 371 373 399 480 481
Goldstein, A.      279 281 282
Golin, S.      305
Goodrich, R. G.      143
Gor'kov, L. P.      453
Gordon, W. L.      225 277 325 497
Graebner, J. E.      346 352 356 358
Graham, G. M.      234
graphite      see “Carbon”
Green's function method      91 95—99 127 321 365 367 485
Green, B. A.      165
Greene, J. B.      363
Greene, M. P.      477
Grenier, C. G.      70 287 305 331
Griffiths, D.      351
Grigsby, D. L.      viii
Grimes, C. C.      207 350
Grimvall, G.      453 454
Grodski, J. J.      375
Group, of the wave vector (group of k)      29 36—38 39 45 94
Group, theory      26—46 89 94
Gschneidner, K. A.      164
Gubanov, A. I.      403
Guccione, R.      317
Gunnerson, E. M.      275
Gupta, R. P.      382 398 399
Gur, Y.      43
Gurevich, V. L.      229 236 237 249
Haering, R. R.      253 290 291 292
Hafnium      336 342
Hagstrom, S. B. M.      158 386
Hagstrum, H. D.      161
Hall effect      211—215 292 304 320 375 478 479 487 511
Halloran, M. H.      346
Halse, M. R.      126 321 322
Ham, F. S.      81 99 101 127 258
Hambro, L.      184
Hamburg, R. E.      237
Hamiltonian      44 82 197 426 432—434 445 446—447 449 453 456 462 463
Hanlon, J. E.      436
Hanna, S. S.      184
Hansen, E. B.      479
Hanus, J.      370 371
Harford, A. R.      87 268 269 270
Harmonic approximation      429 432
Harris, R.      392
Harrison, M. J.      249
Harrison, W. A.      9 24 59 65 67-8 69 79 105 109-10 112 249 267 268 275 276 305 306 324 325 437 490 503
Hartman, R. It.      307
Hartree units      see “Atomic units”
Hartree — Fock calculations      71 75 77 175 176
Hartree, D. R.      71 73
Harvey, A.      175
Hasegawa, A.      477 482
Haussler, P.      480
Heat pulses      478
Heden, P. F.      158
Heden, P. O.      386
Hedgecock, F. T.      497
Hedin, L.      467
Hedman, J.      168
Hein, P.      274
Heine, V.      viii 26 73 76 100 105 107 108 109 111 116 205 259 275 304 305 318 403 467 500 501 502 503 504 505
Helicons      207 413—415
Helium      418
Henry, N. F. M.      4 5 6
Hereford, F. L.      184
Herman, F.      43 44 71 73
Herring, C.      33 42 43 44 45 89 90 91 143 257 353 391
Hexagonal close-packed structure      43 63 64 68 141 199 256—257 263 265
Higgins, R. J.      497
Hill, A. G.      91 257
histogram      122
Ho, P. S.      437
Hoare, F. E.      164
Hodges, L.      113 114 115 364 367 371 373

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