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| Авторизация |
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| Ashcroft N.W., Mermin N.D. — Solid State Physics |
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| Предметный указатель |
Susceptibility, magnetic, singularity at  699
Symmetry operations of Bravais lattice 113—114
Symmorphic space groups 126
Szigeti charge 549
TA (transverse acoustic) phonon see "Acoustic modes"
Tetragonal crystal system 115
Tetragonal crystal system, examples among the elements 127
Tetravalent metals 302—304
thermal conductivity see "Conductivity thermal"
Thermal equilibrium, and collisions 6 245
Thermal equilibrium, local 6 244—245
Thermal expansion 490—495 see
Thermal expansion and Grueneisen parameter 493
Thermal expansion and volume dependence of normal mode frequencies 490—492
Thermal expansion of metals 495
Thermal expansion, and band gaps of semiconductors 566
Thermal expansion, coefficient of 492
Thermal expansion, coefficient of, alkali halides, table of 494
Thermal expansion, coefficient of, metals, table of 496
Thermal expansion, temperature dependence 493
Thermionic emission 362—364
Thermoelectric effects 24—25 26 52 253—259 261
Thermoelectric effects in superconductors 256 730—731 751n
Thermoelectric effects, measurement of 256—257
Thermoelectric field 24—25
Thermomagnetic effects 258n 260
Thermopower (thermoelectric power) 24 257
Thermopower (thermoelectric power) and lattice vibrations 258
Thermopower (thermoelectric power) and Peltier effect 258
Thermopower (thermoelectric power) and sign of charge carriers 258
Thermopower (thermoelectric power) and Thomson effect 261
Thermopower (thermoelectric power) in semiclassical model 256—258
Thermopower (thermoelectric power) in semiconductors 563 585
Thermopower (thermoelectric power) of superconductors 256 730—731 751n
Thermopower (thermoelectric power), failure of classical theory 25
Thermopower (thermoelectric power), free electron theory of 52
Third law of thermodynamics 490n
Third law of thermodynamics, and adiabatic demagnetization 660
Thomas — Fermi method 340—342 see "Screening"
Thomas — Fermi method vs. Lindhard method 340 343
Thomas — Fermi method, dielectric constant 341
Thomas — Fermi method, nonlinear 341
Thomas — Fermi method, wave vector 342
Thomson effect 26 258 261
Tight-Binding Method 176—190
Tight-binding method and Mott transition 187
Tight-binding method and transition metals 306
Tight-binding method in lattices with bases 185—186
Tight-binding method vs. nearly free electron method 179n
Tight-binding method, "failure" of 187 308 677n
Tight-binding method, p-bands 189—190
Tight-binding method, s-bands 181—184
Tight-binding method, similarity to theory of lattice vibrations 437n
Tight-binding method, spin-orbit coupling in 186
Tilt boundary 638
Tin, white vs. grey 302n 564
TO (transverse optical) phonons see "Optical modes"
Transition metals 305—308
Transition metals, ions, magnetic moment of 658
Transition metals, specific heats 59
Translation operator 134
Translation operator in terms of momentum operator 785
Translations of Bravais lattice 70
Transmission coefficient (barrier penetration) 147
Transverse see "Polarization"
Triclinic Bravais lattice 118
Triclinic crystal system 118
Trigonal Bravais lattice see "Rhombohedral Bravais lattice"
Trigonal crystal system 119
Trigonal crystal system, examples among the elements 127
Trigonal crystal system, relation to cubic 119
Trigonal crystal system, relation to hexagonal 125n
Triplet pairing in liquid  741n
Triplet states 675
Triplet-singlet splitting 676—679
Trivalent metals 299—302
Tube, Landau 273
Tunneling from normal metal to superconductor 735
Tunneling from normal metal to superconductor, and energy gap 735
Tunneling interpretation of Bloch electron motion 185
Tunneling, between superconductors, Josephson effects 751—753
Tunneling, between superconductors, normal 751
Twinning 632n 637
Twist boundary 638
Two fluid model 737
Ultrasonic attenuation in superconductors 736
Ultrasonic attenuation, and Fermi surface 277
Umklapp process (U-process) 501—502
Umklapp process (U-process) and choice of primitive cell 502
Umklapp process (U-process) and crystal momentum conservation 502
Umklapp process (U-process) and electrical resistivity 526—528
Umklapp process (U-process) and phonon drag 527—528
Umklapp process (U-process) and thermal conductivity 503—505
Umklapp process (U-process) vs. normal process 502
Umklapp process (U-process), "freezing out" of 502
Unit cell see "Conventional unit cell" "Primitive
Upper critical field 732—733
Vacancies 616 see
Valence bands, in metals 193
| Valence bands, in metals in semiconductors 562
Valence bands, in metals, wave function 194
Valence bands, in metals, wave function, compared with core 195
Valence crystals see "Covalent crystals"
valence electrons 3
Valence electrons, mystery 59—60
Valence electrons, solution of mystery 223
Van der Waals force see "Fluctuating dipole force"
Van Hove singularities, in electronic density of levels 145 150
Van Hove singularities, in nearly free electron model 171
Van Hove singularities, in phonon density of levels 465 468
van Leeuwen theorem 269 646
van Vleck paramagnetism 653
Variational principle, for Boltzmann equation 327—328
Variational principle, for Schrodinger equation in periodic potential 769—770
Vector potential, and electron magnetism 646
Vector potential, in semiclassical equations of motion 771
Velocity of Bloch electrons 141 765
Velocity of Bloch electrons in tight-binding model 185
Voltmeter, what it measures 256—257
Von Laue condition 99
Von Laue formulation of X-ray diffraction 97—99
Von Laue formulation of X-ray diffraction, and reciprocal lattice 97—99
Von Laue formulation of X-ray diffraction, equivalence to formulation of Bragg 99—100
Von Laue method 101—102
Von Laue method, Ewald construction for 102
Voronoy polyhedron 73n
Vortex lines in superconductors 733—734
Vortex lines in superconductors and Ginzburg — Landau theory 748n
Vortex lines in superconductors and magnetic flux quantum 734n
Wannier functions 187—189
Wannier functions, orthonormality relations 190
Wannier functions, uses of 188
Wave packets, electron 215—217
Wave packets, phonon 496
Wave vectors, density of 35 136
Whiskers 637
White tin structure 127
Wiedemann — Franz law 20—21 see thermal of "Lorenz
Wiedemann — Franz law in free electron theory 52
Wiedemann — Franz law in semiclassical model 255—256
Wiedemann — Franz law, classical theory 23
Wiedemann — Franz law, classical theory, accidental success of 23 52
Wiedemann — Franz law, failure for inelastic scattering 323
Wigner crystal 684
Wigner — Eckart theorem 654 668
Wigner — Seitz cell 73—75
Wigner — Seitz cell for body-centered cubic Bravais lattice 74 82
Wigner — Seitz cell for face-centered cubic Bravais lattice 74 82
Wigner — Seitz cell in reciprocal space see "Brillouin zone first"
Wigner — Seitz cell in two dimensions 82
Wigner — Seitz cell, algorithm for construction of 74
Wigner — Seitz cell, proof of primitive nature 74
work function 354—360
Work function and contact potentials 360
Work function and thermionic emission 362—364
Work function for inequivalent surfaces 359
Work function, table 364
Work hardening 636
wronskian 148
Wurtzitc structure 387n
X ray diffraction 96—110 794—795
X ray diffraction and phonon spectrum 480 794—795
X ray diffraction from particle point of view 473
X ray diffraction, atomic form factor 107—108
X ray diffraction, Bragg condition 97
X ray diffraction, Bragg formulation 96—97
X ray diffraction, Bragg peaks 96
X ray diffraction, Bragg reflection 100
X ray diffraction, Compton background 4S0
X ray diffraction, convention for angle of incidence 96n
X ray diffraction, Debye — Waller factor 4S6 792
X ray diffraction, diffuse background 96n
X ray diffraction, effect of lattice vibrations on 420 794—795
X ray diffraction, equivalence of Bragg and Laue formulations 99—100
X ray diffraction, Ewald construction 101
X ray diffraction, Lane method 101
X ray diffraction, Laue formulation 97—99
X ray diffraction, nearly elastic nature of scattering 98n
X ray diffraction, powder method 102
X ray diffraction, rotating crystal method 102
X ray diffraction, structure factor 104—107
X ray, soft emission, and independent electron approximation 345n
X ray, soft emission, and measurement of bandwidth 335
X rays, characteristic energies 96
X rays, compared with phonon energies 480
Yukawa potential 342
Zener breakdown see "Breakdown electric"
Zero point motion of ions 416
Zero point motion of ions and de Boer parameter 412—413
Zero point motion of ions and inadequacy of classical theory of lattice vibrations 422n
Zero point motion of ions, contribution to thermal energy density 454
Zero point motion of ions, manifestations of in lighter noble gas solids 401—402
Zincblende structure 76 81
Zincblende structure and 111-V mixed ionic covalent crystals 387 389
Zincblende structure and II-VI ionic crystals 386
Zincblende structure, compounds with, tables of 81
Zincblende structure, relation to wurzite structure 387n
Zincblende structure, structure factor 109
Zone see "Brillouin zone" "Extended "Jones "Large "Reduced "Repented
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