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Animalu A.O. — Intermediate Quantum Theory of Crystalline Solids
Animalu A.O. — Intermediate Quantum Theory of Crystalline Solids



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Название: Intermediate Quantum Theory of Crystalline Solids

Автор: Animalu A.O.

Аннотация:

The acquisition of scientific knowledge, like the growth and development of a fruit tree, is both a horizontal and a vertical process. The field must be surveyed and a site chosen before the seed of knowledge is planted. The seed sprouts and begins to grow in length and breadth as it is nourished. In due course the plant matures into a full-grown tree, with a stem, numerous branches and twigs and leaves all connected together. And finally it bears fruits for harvest. Some branches may die and other new shoots spring forth in their place, but with each new shoot comes increasing rich harvest. Even so, a student who chooses to stake his future in solid state physics and material science must start from the modest beginnings of modern solid state physics that followed the discovery of quantum mechanics in 1926; and he must diligently follow the growth of the subject of material science and its technological applications (especially electronic devices) over the past half century up to its present state of maturity as a full-grown tree of knowledge with a stem, numerous branches, and plentiful ripe fruits for harvest.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: reprinted edition

Год издания: 1978

Количество страниц: 516

Добавлена в каталог: 28.03.2010

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Kramers’ theorem      190
Kubo formula      234
Lamor frequency      370
Landau gauge      262
Landau level      266 268
Landau theory of Fermi liquids      456
Lande factor      271
Langevin function      357
Laser diode      331
Laser gain      346
Lattice diffraction      126
Lattice specific heat      91
Lattice translation operator      194
Lattice vibrations      90
Lattice waves      115 16
Lattice with a basis      2
Laue spots      29 30
Layered structure      209
LCAO Method      64 174
Lennard — Jones potential      55 84
Li      163 171
Li-ferrite      403
Light emitting diode (LED)      331
Linear ionic solid      59
Liouville’s theorem      216
Localized electron picture      369
London’s equation      413 418
Lonicity      323
Lorentz force      244 245
Madelung energy      58
Madelung sum      59
Madelupg constant      58
Magnetic breakdown      276 79
Magnetic devices      401
Magnetic flux      354
Magnetic flux quantum      451
Magnetic impurities      395
Magnetic interactions      369
magnetic moment      34
Magnetic order      358
magnetic properties      353 407
magnetic susceptibility      356
Magnetic unit cell      358
Magnetic-field-induced surface states      259 65
Magnetic-flux density      354
magnetite      402 403
Magnetization curve      364 366
Magnetoconductivity, classical theory      245 47
Magnetoconductivity, interband      267
Magnetoresistance      251 54 281
Magnetostriction      366
Magnons      392 94
Matthiessen’s rule      215
Maxwell — Boltzmann statistics      204
Maxwell’s equations      226 354 55
Mean field theory      388
Meissner effect      412 415
memory devices      340
Metallic binding      66 80
Mg — Zn ferrite      403
Microscopic reversibility      217
Microwave devices      404
Miller indices      13 14
MnFL      359 393 394
Mobility in semiconductors      220
Model potential      167 168 181 298 319
Molecular orbital      173
Momentum conservation      231
Mott transition      387
Muffin-tin potential      181
Na      208 237
Neel temperature      360
Neutron diffraction      125 28
NI      183
NMP — TCNQ      81 207
Number operator      101
Ohm’s Law      209 214 251
Onsager — Lifshitz quantization condition      257
Optical absorption coefficient      226
Optical absorption in semiconductors      238
Optical conductivity      227
Optical conductivity of alkali metals      235
Optical conductivity, basic formula of      233 34
Optical dispersion relation      229
Optical matrix element      232
Optical properties      225
OPW overlap      163
OPW-pseudopotential      163
Orthogonality relations      487
Orthogonalization hole      166
Orthogonalized plane wave (OPW) method      161 64
Ozone      491 98
Packing fraction      5 25
Paramagnetic-ferromagnetic      362
Paramagnetism      383 396
Parity      63
Pauli spin matrices      190
Pauli spin susceptibility      382
PB      98 153 160 186 192 208 271 73 431
Pb — Mg Josephson junction      448
Peltier effect      242
Penetration depth      416
Penn’s model      295
Periodic boundary condition      40
Periodic functions      20
Periodic property      3
Permeability      403
Perturbation theory      46
phase diagram      132 391
Phase shifts      184
Phase transition, antiferromagnet      391
Phase transition, fcc-bcc lattice      136
Phase transition, normal-superconducting      409 420
Phase-coherence oscillations      279 81
Phase-space      215
Phonon drag      242
Phonon frequencies      124 135
Phonon-phonon interaction      139
Photon frequency absorption      347
Pippard puzzle      152
Pippard’s standard metal      8 222 482
Plane wave method      157 61
Plasma oscillations      230
Plasma'frequency      93 108 113 227
Plasmon      469 476
Poisson bracket      216
Poisson’s equation      473
Polar semiconductor      284
Positron annihilation      50
Potential barrier      33
Projection operators      496 498
Pseudocharge density      168
Pseudopotential form factor      299
Pseudopotential, bare      168
Pseudopotential, cancellation theorem      164
Pseudopotential, empirical      167 286
Pseudopotential, model      76 77
Pseudopotential, operator      166
Pseudopotential, self-consistent      167
Pseudopotential, transformation      171 166
Pseudowave      165
Quantized Orbits      270
Quantum defect method (QDM)      180
quantum size effect      265
Quasi-particle, backflow      462
Quasi-particle, interaction strength      458
Quasi-particle, interactions of      469 70
Quasi-particle, local energy      459
Quasi-particle, local equilibrium      461
Quasi-particle, magnetic susceptibility      460
Quenching of orbital angular momentum      386
Random phase approximation      472
Reciprocal lattice      17 20 298
Reciprocal lattice method in lattice dynamics      107
Rectifier equation      335
Reflectance      228
Refractive index      33 226
Relativistic energy band      188
Relaxation time approximation      218 221 222
Resistivity minimum in alloys      215
Resistivity tensor      280
Resonance, d-state phase shift      187
Resonance, ferromagnetic      367 405
Resonance, optica      228
Rigid bands      185
Root-mean-square velocity      212
Russell — Saunders coupling      384
Rutherford scattering      310
Scattering cross-section, electron      37
Scattering cross-section, neutron      129
Scattering factor, atomic      34
Scattering factor, electron      36
Schoenflies’ notation      10
Screened exchange      381
Screening potential      70
Second quantization      427 463
Seebeck effect      242
Self-energy      429
Semiconductor devices      308 325 31
Semiconductor, binary compounds      294 298
Semiconductor, carrier concentration and conductivity      215 311
Semiconductor, degenerate      338
Semiconductor, electrolyte analogy      306
Semiconductor, energy gaps      144 298 323
Semiconductor, Fermi level      306
Semiconductor, laser dicde      346
Semiconductor, mobility      309
Semiconductor, models      293 301
Semiconductor, types of      285 292 301 302 307 338
Shallow impurity level      316
Shubnikov-de Haas effect      244 270
Si      165 197 323
Similarity transformation      485
Single-particle excitations in superconductors      43
Skin depth, anomalous      259
Skin depth, normal      258
Slater approximation      380
Slater determinant      374
Sn      207 432
Sodium chloride structure      7 14 31 58
Soft X-ray emission      200
Space group      490
Specific heat of superconductors      42
Spin waves      391 393 394 477 478
Spin-orbit coupling      155 190
Standard metal      8 222 482
Stoner criterion      400 479
Stoner model      398
Stress tensor      83
Strong-coupling theory of superconductivity      410 443
Structure factor      221 130
Structure factor for diatomic crystal      286
Structure factor for electron-phonon interaction      429
Sulfur      197
Sum rule      229
Superconducting energy gap      411
Superconducting energy gap parameter      439
Superconducting quantum interference, device (SQUID)      452
Superconductive tunneling      443
Superconductivity      408 54
Superconductors, conductance of      444
Superexchange      377 389
Supermalloy      403
Surface impurity states      318
Surface modes      106
Surface states      25
Symmetry principle      39
Theory of      338 40
thermal conductivity      138
Thermal expansion coefficient      56
Thermal ionization      321
Thermal properties of superconductors      420
Thermal voltage      334
Thermoelectric effects      218 242
Thermoelectric figure of merit      242
Thermoelectric power      242
Thomas-Fermi dielectric screening function      72 297
Tight-Binding Method      172 200
Time-reversal symmetry      189
TiOL      351
Transitor gain      330
Transport equation      460
Triangle group      488
Triple axes spectrometer (TAS)      125
Tunable      349
Tunnel Diode, amplification      340
Tunneling current in superconductors      445
Type — I superconductor      414
Type — II superconductor      414
U process      224
Ultraviolet light      228
Umklapp process      127
Units, emu and MKS      355 365
Valence band      143
Van der Waals attraction      53 57
van der Waals potential      88
Van Hove singularities      114 123 240
Wannier functions      193 200 381 389
Weiss molecular field approximation      3
Wiedemann — Franz law      212
Wigner lattice      480
Wigner — Seitz cell      3
Wigner — Seitz cellular method      177
X-ray photoemission      188
Zener’s formula for tunneling      276
Zero-point energy      91
Zone schemes, extended      47
Zone schemes, reduced      49
Zone schemes, repeated      49
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