Springford M. — Electrons at Fermi surface :: Электронная библиотека попечительского совета мехмата МГУ

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Springford M. — Electrons at Fermi surface

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Название: Electrons at Fermi surface

Автор: Springford M.

Язык:

Рубрика: Физика/Физика твёрдого тела/Приложения/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1980

Количество страниц: 541

Добавлена в каталог: 02.10.2005

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

Предметный указатель

MI      see "Magnetic interaction"
Migdal — Kohn anomaly      32—34
Minority spin      227 235—237 252—259 477
Mixing sidebands method for g-factor measurement      439 440 445—446
Mn, as impurity in Au host      471
Mn, as impurity in Pd host      476—477
MO      152 214
Mo, alloys of      360
Mo, band energies      179
Mo, Fermi surface      211 212—213 257 268 279 309
Momentum      22
Momentum-space orbits      11
Monsters      8 12
Mosaic structure      380 422—431 507—508
Mosaic structure and dislocations      431—432
Mosaic structure, bicrystal      424—426
Mosaic structure, Gaussian spread of crystallites      426—431
Moustaches      11
MT approximation      160 208 222 295—296 306 312 316 341—344 374
MTO methods      161 162—165. 173 176
MTZ      341 346 347—348
Na      99 see
Na, g-factor      446—470
Na, spin-susceptibility      446—447 449
Nb, band energies      179
Nb, densities of states      172—173
Nb, Fermi surface      211—212
Nearly-free electron model      20 152 297 339—340 394
Neck orbit and angular dependence of Dingle temperature, in Cu      429—430
Neck orbit and magnetic "interference"      18
Neck orbit and MI effects, in Au      464—465
Neck orbit and mosaic structure effects, in Au and Cu      427-430
Neck orbit and the evaluation of potentials      202
Neck orbit for alloys of Au      468—469 472—473
Neck orbit for alloys of Cu      382—383
Neck orbit in Ni      242 251 253 254 268
Neck orbit, area of, in noble metals      203—204
Neck orbit, break-up of      29
Neck orbit, g-factors for, in noble metals      447—449 453—454
Neck orbit, oscillation measurements, in noble metals      503—505
Neck orbit, scattering rate for, in Cu and Cu alloys      382—385
Neck orbit, stress dependence of in noble metals      306
Neck orbit, stress dependence of in W      309—316
Neck orbit, stress dependence of, in Cu      306—311
Neck orbit, temperature dependence of      269—270
Neck orbit, volume dependence of, in W      313
Needle orbit      361 396 397 449 478
Neutron irradiation, effects of      358 359
Neutron scattering      229 272 476—477
NI      152 196 227—231 233 235—238 241—243 248 478
Ni, band structure      251—252
Ni, Fermi surface      251—265 269—271
Ni, Fermi surface, neck orbit      242 261 253 254 268
Ni, magnetic (spin-flip) excitations in      265—266 269—276
NMR measurements      489—492 502—505
NMR measurements, choice of material for      490
Noble metals      149 150 181 341 352 370 424 see "Au" "Cu"
Noble metals as transition metals      149 199 304
Noble metals, alloys of, experimental results      379—386
Noble metals, alloys of, waveshape analysis in dHvA effect      470—474
Noble metals, electronic structure of      199—204 292
Noble metals, g-factors      447—449 451 452 453 454
Nucleation      129—131 133—135 139
Octahedral surfaces      211 256—258 261 264—265 312—314
One-electron potentials      155—160
Onsager phase factor      394 481
Onsager relations      117—118 322
Open orbits      11—19 41
OPW methods      292—294 297—303 355 455
Orbits      10—11 25—26 see belly etc.)"
Orbits and magnetic breakdown      39—44
Orbits in a thin plate      31
Orbits, closed      8 11 15 41
Orbits, open      11—19 41
Orbits, self-intersecting      12—13
Orientation, and high-precision dHvA, measurements      482—486 487
Orientation, and high-precision dHvA, mosaic structure effects      427—429 507—508
Orientation, and high-precision dHvA, strain measurements      286
Orientation, and high-precision dHvA, symmetry directions      286 424 426—431 484
Orientation, and high-precision dHvA, torsion balance measurements      138
Os, band structure      170—171 186
Os, Fermi surface      220—221
P-wave scattering      345 355 356 388—389
Parabolic band      168 245
Parabolic points      36—37 38
Paramagnons      93 245
Partial waves      161—162 164 181—184 341—342 355 381—391 453 474 475
Path-integral approach to transport problems      102—123
Path-integral approach to transport problems, Boltzmann equation      102—107
Path-integral approach to transport problems, non-uniform fields      120—123
Path-integral approach to transport problems, relaxation time approximation      108—109
Path-integral approach to transport problems, thermoelectric effects      117—120
Path-integral approach to transport problems, vector mean free path      109—117
PB      286
Pb, $\alpha^{2}F(\omega)$ plot      78—79
Pb, $\alpha^{2}F(\omega)$ plot, effect of strain on Fermi surface      297—304
Pb, $\alpha^{2}F(\omega)$ plot, electron-phonon coupling constant      71
Pb, $\alpha^{2}F(\omega)$ plot, frequency modulation due to MI in      445—446
Pb, $\alpha^{2}F(\omega)$ plot, g-values      450 454—455
Pb, alloys of      360
pd      237
Pd, alloys of, dHvA effect      360
Pd, alloys of, ferro-magnetism in      476—477
Pd, electronic structure      153 172—173 179 184 191 194 195 204—210
Pd, g-factor      207 450
Pd, many-body parameters      66—67 78
Peltier coefficient      117
Period of dHvA oscillations      9 11
Phase boundary and domain nucleation      134—135
Phase instability, and magnetic interaction      125 126—131
Phase shift inversion      374—375
Phase shifts and dHvA effect in dilute alloys      341—352
Phase shifts and dHvA effect in dilute alloys, Friedel shifts      347—350 352—355
Phase shifts and dHvA effect in dilute alloys, hybrid phase shift/plane wave method      352
Phase shifts and Fermi surface fits for transition metals      201 202 208 212
Phase shifts and Fermi surface fits for transition metals and strain measurement      285—286
Phase shifts and Fermi surface fits for transition metals, pseudopotential methods      291—292 294—296 305—309
Phase transition, and change in Fermi surface topology      22 29—30
Phase, dHvA, and waveshape analysis      136—137 141—142 399—404 407—420 443—444
Phase, dHvA, and waveshape analysis in presence of magnetic impurities      459—469 473 474 476
Phase, dHvA, and waveshape analysis, dephasing effects      380 420—437 445—446
Phase, dHvA, and waveshape analysis, high-precision measurements      481 482 484 486 488 489 492—508
Phase, dHvA, and waveshape analysis, high-precision measurements, computer-based techniques      497—502
Phase, dHvA, and waveshape analysis, high-precision measurements, errors due to spurious effects      505—507 508
Phase, dHvA, and waveshape analysis, high-precision measurements, graphical techniques      493—497
Phase, dHvA, pressure dependence      239
Phase, dHvA, temperature dependence      250—251
Phasor diagram      404 409 410 417 419 463
Phonon scattering      104—106
photoemission      153 198 202—203 208—209 213—214 215 237
Photon dispersion law, anomalies in      36—37
Piezo-optical measurements      202
Pippard criterion for g-shift upper limit      454
Pippard oscillations      29 38
Plane-wave occupancy factor, effect of many-body interactions on      100
Pockets      22
Pockets in Fe      256—261 266
Pockets in Fe, mixed-spin      258—260 266
Pockets in Ni      238—239 253—254
Polarized spiral wave      27 135
Polyvalent metals, alloys of      477—478
Polyvalent metals, g-factor results      449—450 451 454—455
Positron annihilation      153 233 251 265
Potential parameters      160—161 167 174—186 222
Potentials      154—186 see
Potentials, effective      48 50 56 58—60 84 101
Potentials, one-electron      155—160
Pressure      see also "Hydrostatic pressure"
Pressure and cohesive properties of transition metals      186—193
Pressure and equilibrium properties of ${}^{3}He$       87

Pressure and Fermi liquid parameters for ${}^{3}He$       93
Pressure and Fermi surface area      201 207 210 239—243 266—269
Pressure bomb technique      278
Pressure, change of crystal structure by      196 214
Projection techniques      397 413—420 443 444—445
Pseudopotentials      20 22 190
Pseudopotentials and the dHvA effect in dilute alloys      339—341 352 355
Pseudopotentials and the effect of strain on the Fermi surface      291—304
Pseudopotentials, OPW      292—294 297—304
Pseudopotentials, phase-shift      291—292 294—296
Pseudopotentials, square-well      176
pt      236 483
Pt, electronic structure      204—210
Pt, g-factor      450
Pt, many-body parameters      66—67
Quantization      8—9 10 44
Quantization and acoustic attenuation oscillations      142—143
Quantization and magnetic induction      126
Quantization, of chords of the Fermi surface      30—31
Quasi-classical effects      7 8 16—17 41
Quasi-momentum      4 5 7 22 38—39
Quasi-particle-hole pairs      228—229 230
Quasi-particles      4—7 47 66 88—89
Quasi-particles and Fermi liquid theory      88—89 100
Quasi-particles, lifetimes of      79—83 107 323 362—392
Quasi-particles, relaxation rate of      96—97
Quasi-particles, self-energy of      79—83 88—89 95 364—367
Radiofrequency-size-effect      82
Random phase approximation      229 245
RAPW method      153 204
Rare earth metals      92 153 221 222
Rb      see also "Alkali metals"
Rb, energy bands in      179
Rb, g-factor      446—447
Rb, spin susceptibility      446—447 449
Re      153 219
Real-space orbit      10—11
Relative harmonic amplitudes of dHvA oscillations      399—403
Relative harmonic amplitudes of dHvA oscillations and dephasing      422
Relative harmonic amplitudes of dHvA oscillations and g-factor measurement      405 439 440 441 443—445
Relative harmonic amplitudes of dHvA oscillations and magnetic impurity effects      462—469
Relative harmonic amplitudes of dHvA oscillations and magnetic interaction      418—420
Relative harmonic amplitudes of dHvA oscillations and spin-dependent scattering      408—412
Relative harmonic amplitudes of dHvA oscillations, due to field inhomogeneity      436—437
Relative harmonic amplitudes of dHvA oscillations, due to lattice dislocations      431—436
Relative harmonic amplitudes of dHvA oscillations, due to mosaic structure      425—431
Relativistic APW (RAPW) method      153 204
Relativistic effects in band structures and Fermi surfaces      171 181—186 202 203—204 205 213 216 219
Relaxation time      15 96—97 102 106 113 123 317—318 397—398
Relaxation time approximation      108—109
Relaxation time formalism      108 113
Relaxation time, temperature dependence of      96—97
Relay effect      43—44
Renormalization of wave functions      76—77 100 331—332 344 348 366 380—381 391
Repeated random phase approximation      103
Residual phase number      492—494
resistivity      16—18 349 384 386 474 see
Resistivity, temperature dependence of      18 475
Rh, alloys, of      360—361
Rh, electronic structure      179 204—210
Rh, g-factor      450
Rh-Fe system      474—476
Rigid-band model      338—339 348 356—360
Rigid-rigid band model      339
Rosette orbit, g-factor      448
Rosette orbit, mosaic structure effects in Au      427—428
Rosette orbit, oscillations in Cu      480 483
Rosette orbit, stress dependence of in Cu      307 308
Rotation diagram      483 485
Ru, band energies      179 219
Ru, Fermi surface      220
S-wave scattering      345 355 356 388—390
Saddle points      36 206
SB      11
Sb, alloys of      357
Sb, g-factor      439 453
Scaffolding surface      206—207
Scattering      see also "Mosaic structure"
Scattering and magnetic field "interference"      18—19
Scattering and the path-integral method      102—123
Scattering by impurities      39 109 292 321 328—356 362—365 368—392
Scattering by impurities, magnetic      359 397—399 405—412 456—478
Scattering by lattice dislocations      431—435
Scattering, backscattering      344—345 347—352 354—355 374 459
Scattering, catastrophic      109 123
Scattering, elastic      38—39 104 106 107 109 110 329
Scattering, forward      94 331—332 365 374
Scattering, inelastic      104 106 107 109 111 232 272
Scattering, Inward      104 106—107 115—116 120
Scattering, neutron      229 272 476—477
Scattering, outward      103—104 106—107 115—116 120
Scattering, partial-wave      345 355 356 388—390
Scattering, phonon      104—106
Scattering, spin-flip      331 398 471 478
Scattering, strong      325—326
Scattering, surface      122—123
Screened Coulomb potential      60 66 70
Screened Coulomb potential and calculation of susceptibility      64—65
Screened Coulomb potential and effective mass      61—62 64—65 67
screening      58—60 65 180 188
Screening of impurity moments      457—458 475
Screening of impurity potentials      331 333 354
SDF theory      226 228 229 252
SDF- $X \alpha$       227 236 253 254
SDF-LSD theory      226—227 236 241 253 254
SDS      see "Spin-dependent scattering"
Secondary electrons      214
Self-consistent procedure used in band- structure calculations      49—50
Self-energy for dilute alloys      326—338 362 364—367 398 456—460
Self-energy for dilute alloys in zero magnetic field      326—328
Self-energy of quasi-particles      79—83
Self-intersecting orbits      12—13
Semiconductors      17 104 109 121 215
Shear see      "Angular shear" "Tetragonal
Shoenberg effect      see "Magnetic interaction"
Shubnikov — de Haas effect      17 121 259 357 358
Side-lobes due to square data-windows      498-499
Sidebands in MI mixing      445—446
Single-particle theory      48—57
Sinusoid averaging technique      495—497 501
Size effects      10—11 31
Skin effect      16 23—24 101 135 150
Skin effect and cyclotron resonance      25—27 31—32 72 74
Skin effect and errors in dHvA measurements      439—440 441 442 443 503 505—506
Sn      287 290
Sn, effective electron-phonon coupling constant for      71
Solenoids, superconducting      486—489 493
Solute concentration, measurement of      507
Sound wavelength      10
Sound waves and strain dependence of Fermi surface      283—284 288—289 310 315—317 317—318
Sound waves, attenuation of      23—25 28—29 284 317—318
Sound waves, attenuation of, absorption coefficient      25 28
Sound waves, attenuation of, and Pippard resonance      28—29 38
Sound waves, attenuation of, and the Fermi surface      29—30
Sound waves, attenuation of, for zero sound      97—99
Sound waves, attenuation of, frequency dependence      97—99
Sound waves, attenuation of, giant oscillations      142—143
Sound waves, attenuation of, temperature dependence      97—99
Sound waves, hydrodynamic      86—87 97
Sound waves, longitudinal      283 288—289 291 318
Sound waves, transverse      283 291
Sound waves, velocity of      86—87 97—99 287—289
Sound waves, velocity of, for zero sound      90 98—99
Specific heat      73
Specific heat and electron-phonon enhancement      68 77 82
Specific heat of Fermi liquid ${}^{3}He$       84 85 87 89—90 92
Specific heat, many-body corrections to      60—67
Spectral density, in alloys      326—328 332
Specular reflection of electrons      11 16 30—32
Spin density      213 158—159 232 237 see

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