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| Grosso G. (Ed), Parravicini G.P. (Ed) — Solid State Physics |
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| Предметный указатель |
Acceptor impurities 482
Acceptor impurities in germanium and silicon 483
Acoustic phonon branches 318
Adiabatic potential-energy surfaces 269
Adiabatic potential-energy surfaces, conical intersection, Jahn — Teller system 279 282 289
Adiabatic potential-energy surfaces, glancing intersection, Renner — Teller system 279
Adiabatic potential-energy surfaces, no intersection, Born — Oppenheimer system 272 273
Alkali metals, electronic properties 222
Alkali metals, optical properties 400
Aluminum film, energy-loss spectrum 240
Aluminum, phonon dispersion curves 319
Anderson model of magnetic impurities in metals 598
Anderson model of magnetic impurities in metals, low-temperature magnetic susceptibility 612
Anharmonic effects 327
Anomalous skin effect 410
Anti — Stokes processes 364
Antiferromagnetism, mean field theory 635
Argon, energy bands 201
Augmented plane wave method 171
Band approximation 143
Bandgap versus lattice constant in semiconductors 474
Bardeen — Cooper — Schrieffer theory of superconductivity 678
Bardeen — Cooper — Schrieffer theory of superconductivity, BCS coherence length 685
Bardeen — Cooper — Schrieffer theory of superconductivity, BCS condensation energy 682
Bardeen — Cooper — Schrieffer theory of superconductivity, BCS Hamiltonian 679
Berry phase 297
Berry phase, gauge invariance 299
Berry phase, Jahn — Teller systems 301
Berry phase, macroscopic electric polarization 301
Beryllium, energy-loss function 252
Bielectronic integrals 137
Bipolar transistor 517
Bipolar transistor, device current densities 519
Bloch identity 347
Bloch oscillator 31
Bloch theorem 2 62
Bloch wavefunctions 3 63
Body-centered cubic lattice 44
Bogoliubov Hamiltonian 687
Bohr — van Leeuwen theorem 545 559 587
Boltzmann transport equation 403
Boltzmann transport equation, electrical conductivity of metals 406 407
Boltzmann transport equation, relaxation time approximation 405
Boltzmann transport equation, thermoelectric effects of metals 414
Born — Oppenheimer adiabatic approximation 273
Boron nitride (hexagonal), energy bands 437
Boron nitride (hexagonal), interband transitions 438
Bose — Einstein distribution function 97 345
Bragg condition of diffraction 356
Bravais lattices 38 42
Brillouin function 594
Brillouin scattering 364
Brillouin zones 59
canonical ensemble 91
Carrier mobility 417 492 502
Cell, conventional 39 40
Cell, primitive 38 41
Cell, Wigner — Seitz 53
Cellular method 169
Cesium chloride structure 45
chemical potential 82 93
Clausius — Mossotti relation 341
Cohesive energy, covalent crystals 220
Cohesive energy, ionic crystals 216
Cohesive energy, rare-gas solids 203
Cohesive energy, transition metals 227
Collective states, origin and energy 194 195
Compton scattering 368
Continued fractions 18
Continued fractions for Franck — Condon model 464
Continued fractions for Jahn — Teller systems 465
Continued fractions for Lanczos and recursion method 185
Continued fractions for Mathieu periodic potential 27
Cooper pair idea 672
Copper, anomalous skin effect 412
Copper, energy bands 225
Copper, Fermi surface 226
Copper, optical properties 401
Correlation energy 114
Covalent crystals, cohesive energy 220
Covalent crystals, electronic properties 218
Critical exponents, Ising models 624 655
Critical exponents, mean field theory 624
Critical points in optical constants 433
Crystal momentum 29 63
Crystal structures 43
Cubium model crystal 75 190
Cuprous oxide ( ), exciton states 450 451
Curie law, paramagnetism 594
Curie temperature, ferromagnetism 620
Curie — Weiss law 625
Cyclic boundary conditions 4 67
de Haas — van Alphen effect, three-dimensional electron gas 559
de Haas — van Alphen effect, two-dimensional electron gas 554
Debye model of phonon spectrum 326
Debye temperature 327
Debye — Waller factor 378 382 385
Deep impurity levels 484
Density functional theory 130
Density functional theory, local density approximation 136
Density-of-states, critical points 70
Density-of-states, Green’s function 21
Depletion layer 508 520 536
Determinantal wavefunctions 106
Determinantal wavefunctions, Slater rules for matrix elements 107
Diamagnetism, closed-shell systems 589
Diamagnetism, free-electron gas 554 559 579
Diamagnetism, superconductors 668 698
Diamond structure 47
Dielectric function, longitudinal 240
Dielectric function, longitudinal, quantum expression 254 259
Dielectric function, transverse 426
Dielectric function, transverse, quantum expression 429
Diffusion current density 417 491
Diode, semiconductor heterojunction 524
Diode, semiconductor homojunction 506 512
Diode, semiconductor-metal contact 527 531
Divalent metals, electronic properties 224
Donor impurities 480
Donor impurities in germanium and silicon 483
Doped semiconductors 485
Drift current density 417 491
Drude dielectric function 251 395
Dynamical matrix, lattice vibrations 315
Dynamical structure factor, harmonic crystal 380
Dynamical structure factor, harmonic oscillator 373 377
Dynamics of electrons in energy bands 29 64
Dynamics of holes in energy bands 34
effective mass 31 35 66
Einstein model of phonon spectrum 325
Einstein relation 418 493
Electron scattering 352
Electron tunneling, one-dimensional periodic potential 14
Electron tunneling, rectangular barrier 11
Electron tunneling, transfer matrix method 8
Electron-phonon interaction 276
Electronic-nuclear systems 269
Empirical pseudopotential method 165
Empirical tight-binding scheme 146
Empirical tight-binding scheme, p-bands 151
Empirical tight-binding scheme, s-band 150
Energy-loss function 262
Envelope function, excitons 237 447
Envelope function, impurities 482
Ewald construction for diffraction peaks 357
Exchange-correlation functional 134
Exciton-polaritons 337 450
Excitons, dipole allowed optical transitions 448
Excitons, dipole allowed optical transitions, gallium arsenide 233
Excitons, dipole allowed optical transitions, rare-gas solids 232
| Excitons, dipole forbidden optical transitions 449
Excitons, dipole forbidden optical transitions, cuprous oxide () 450 451
Excitons, two-photon transitions 451
Excitons, wavefunctions and energies 234
Face-centered cubic lattice 43
Fano lineshapes 452
Fano lineshapes, solid and gaseous argon 458
Fano lineshapes, solid and gaseous neon 457
Fermi energy 82 93
Fermi Golden Rule 471
Fermi surface in metals 222
Fermi — Dirac distribution function 82 95
Fermi — Dirac distribution function, modified for localized levels 98
Ferromagnetism, low temperature spontaneous magnetization 642
Ferromagnetism, mean field theory 621
Flux quantization 671 708
Folding, reduced zone scheme 25 32
Franck — Condon vibronic model 278
Franck — Condon vibronic model, absorption and luminescence spectra 462
Franck — Condon vibronic model, continued fraction solution 464
Franck — Condon vibronic model, optical transitions 458
Free-electron gas in magnetic fields 546
Free-electron gas in magnetic fields, de Haas — van Alphen effect 554 574
Free-electron gas in magnetic fields, generalized magnetic susceptibility 579
Free-electron gas, Sommerfeld model 77
Free-particle Green’s function 178
Fried el oscillations 248
Friedel sum rule 249
Fullerene 505 667
Gallium arsenide, energy bands 165
Gallium arsenide, phonon dispersion curves 322
Gallium arsenide, table of properties 479
Gallium arsenide, valence excitons 233
Gallium phosphide, polaritons 336
Gallium phosphide, X-ray structure factors 363
Generation-recombination processes 494 497
Geometrical structure factors 360
Germanium, cohesive energy 220
Germanium, energy bands 219 435
Germanium, energy-loss function 261
Germanium, indirect transitions 443
Germanium, interband transitions 436
Germanium, oscillatory magneto-absorption effect 555
Germanium, phonon dispersion curves 320
Germanium, static longitudinal dielectric function 262
Germanium, table of properties 479
Germanium, X-ray structure factors 363
Ginzburg — Landau theory of superconductivity 704
grand canonical ensemble 93
Graphite, crystal structure 48
Graphite, energy bands 154
Green’s function and continued fractions 21
Green’s function and continued fractions, Lanczos and recursion methods 185
Green’s function for band structure calculations 177
Green’s function for band structure calculations for optical properties 431 452 458 465
Group velocity, electrons in energy bands 29 64
Hall effect, classical 564
Hall effect, quantum 569
Hartree approximation 104
Hartree — Fock approximation 110 116
Hartree — Fock — Roothaan approximation 120
Hartree — Fock — Slater approximation 119 125
Haynes — Shockley experiment 502
Heat capacity, electron gas 86
Heat capacity, electron gas, Ising models 646 655
Heat capacity, electron gas, lattice 325
Heat capacity, electron gas, superconductors 695
Heavy fermions 617
Heisenberg model of magnetism 627
Hellmann — Feynman theorem 294
Hellmann — Feynman theorem, atomic forces 296
Heterojunctions, metal-oxide-semiconductor 533
Heterojunctions, metal-semiconductor 527
Heterojunctions, semiconductor-semiconductor 524
Hexagonal close-packed structure 51
High temperature superconductors 664
Hohenberg — Kohn energy functional 133
Hohenberg — Kohn theorem 130
Holstein — Primakoff transformations 639
Homogeneous electron gas 122
Homogeneous electron gas, Hartree — Fock approximation 123
Homogeneous electron gas, phase diagram with quantum Monte Carlo 128
Homogeneous electron gas, Wigner crystallization 126
Homojunctions 506 512
Huang — Rhys parameter 460
Hund’s rules 592
Impurities in semiconductors 478
Indirect transitions 438
Interband optical transitions 434
Interband optical transitions, dipole approximation 433
Intraband optical transitions, Boltzmann treatment 407 410
Intraband optical transitions, Drude theory 395
Intraband optical transitions, quantum theory 413 430
Intrinsic semiconductors 473
Inversion layer 537
Iodine impurities, luminescence 464
Ionic crystals, cohesive energy 216
Ionic crystals, electronic properties 207
Iron impurities in copper, low temperature resistance 603
Iron, spin polarized energy bands 661
Ising model, renormalization group theory 647
Ising model, transfer matrix method 643
Isotope effect in superconductivity 684
Isotopically controlled diamond, Raman scattering 367
Jahn — Teller systems 278
Jahn — Teller systems,  vibronic system 283
Jahn — Teller systems,  vibronic system 292
Jahn — Teller systems,  vibronic system 289
Jahn — Teller systems, Berry phase 301
Jahn — Teller systems, optical properties 465
Jellium model 122
Joint density-of-states 435
Josephson effects 711
Junction field effect transistor 520
Junction field effect transistor, ideal current-voltage charateristics 524
Kohn — Sham equations 134
Kondo interaction, molecular model 608
Kondo temperature 604 615
Koopmans’ theorem 114
Kramers — Kronig relations 241
Kronig — Penney model 5
Kubo — Greenwood expression of optical constants 431
Lanczos method 185
Lanczos method for excited states 190
Landau diamagnetism of the free-electron gas 561
Landau levels 548
Lattice vibrations, harmonic approximation 315
Lattice vibrations, mean square vibrational amplitude 328
Lattice vibrations, one-dimensional chains 308 312
Lattice vibrations, quantum theory 323
Laue condition of diffraction 356
Lennard — Jones potential 203
Lindhard dielectric function 245 250 263
Linearized cellular methods 184
Lithium (grains), de Haas — van Alphen oscillations 562
Lithium fluoride, phonon dispersion curves 323
Lithium hydride, Compton profile 372
Lithium hydride, energy bands 161
Localized magnetic moments in metals 598 612
Localized magnetic moments in metals, criterion of existence 602
Localized magnetic moments in metals, giant paramagnetic susceptibility at low temperatures 616
Localized magnetic moments in metals, resistance minimum phenomenon 604
Localized magnetic moments in metals, singlet ground state 612
London equations 698
London gauge 700
London penetration depth 699
Lorentz dielectric function 260
Lorentz local field 338
Lower critical field  670 710
Lyddane — Sachs — Teller relation 331 337 342
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