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Phillips P. — Advanced Solid State Physics

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Название: Advanced Solid State Physics

Автор: Phillips P.

Аннотация:

Solid state physics continues to be the fastest-growing sub-discipline in physics. This much anticipated new book provides ample background that underpins the principles of solid state physics, and moves quickly to an overview of current research in this fast-moving field. Upper division undergraduates and graduate students in physics who wish to pursue solid state physics research must master old topics, as well as problems of current interest. This book serves that purpose, and fills students' needs.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2002

Количество страниц: 386

Добавлена в каталог: 26.10.2010

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Предметный указатель

Quantum Hall systems gapless excitations      369
quantum mechanics      158
Quantum phase transitions (QPTs)      321-322
Quantum phase transitions (QPTs), (2+1)-dimensional XY model      see Insulator-superconductor transitions isotropic
Quantum phase transitions (QPTs), Bose - Hubbard model      323
Quantum phase transitions (QPTs), Bose metal      341-342
Quantum phase transitions (QPTs), conductivity      340-342
Quantum phase transitions (QPTs), Cooper pairs      322-324 342-345
Quantum phase transitions (QPTs), critical resistance      344-345
Quantum phase transitions (QPTs), definition of      319
Quantum phase transitions (QPTs), essential tension      320-321
Quantum phase transitions (QPTs), isotropic quantum rotor model of      327
Quantum phase transitions (QPTs), phase-only model      322 323 324
Quantum phase transitions (QPTs), quantum rotor model      323 326
Quantum rotor model      323
Quantum rotor model, and free energy      336
Quantum rotor model, Hamiltonian for      326
Quantum rotor model, Landau - Ginzburg      335-337
Quantum rotor model, obtaining mean-field solution in      328-335
Quantum rotor model, quantum critical      335 339
Quantum rotor model, quantum critical point      324
Quantum rotor model, scaling of      324-328
Quark physics      98
Quasi particles      248 257 268
Quasi particles, charge of      165
Quasi particles, effective mass of      227
Quasi particles, energy of      226-227
Quasi particles, in Fermi liquid      170
Quasi particles, in Laughlin liquid      370
Quasi particles, in Luttinger liquid      170
Quasi particles, lifetime of      224
Quasi particles, of BCS theory      251
Quasi particles, spin of      165
Quasi particles, wave function of      368
Quasi-particle energy      241
Quasi-particle excitations      247-251 252 254 257 264
Quasi-particle phonon coupling      261 262
Random binary alloy      300-301
Random dimer model (RDM)      278 299-305
Random matrix theory      291
Relaxation rate      270 271
Relaxation-time approximation      190- 199
Residual resistance      196
Resistance, at low temperatures      191-196
Resistance, residual      196
resistivity      226
Return probability      281-285 290 191
Saturation temperature      299
Saturation time      299
Scale invariance      308
Scaling theory of localization      291
Scaling theory of localization, Fermi-liquid theory      285-286
Scattering equation      64
Scattering processes      159 160
Scattering, amplitude      83 86-87 88-91 109 218 219
Scattering, and resistivity minimum      80-88
Scattering, between down-spin states      101
Scattering, energy-conserving process of      85
Scattering, of spin-down electron      102
Scattering, spin-averaged rate of      82
Schr $\ddot{o}$ dinger equation      14 42 220 230 354
Schr $\ddot{o}$ dinger picture      229
Schrieffer - Wolf transformation      78 105-110 214
screening      41
Screening effects in random-phase approximation (RPA)      134-138
Screening effects in random-phase approximation (RPA), and Heaviside step function      135 136
Second quantization      17-24 27
Second quantization, advantage in using      21
Self-energy      282 283-285 304
Similarity transformation      214
Single-particle exchange energy      37-38
Sommerfeld expansion, and chemical potential      8
Sommerfeld expansion, explanation of      6
Sound propagation      199-202
Spatial wave function      220
Spin operator transition      74
Spin wave function      219
Spin-charge separation      172 248
Spin-flip scattering      94 293 297
Spin-lattice relaxation rate      266-271
Spin-spin coupling constant      98

Spinons      167
Spinons, definition of      165
Spinons, interaction of      166 167
Stirling's approximation      4
Stoner's criterion      68
Stress tensor      198
Strong localization      278 281-285
Structure function      130-134
Structure function of free electrons      184-185
Structure function of free electrons, and fluctuation-dissipation theorem      185
Structure function, Fourier components for      131
Structure function, Fourier transform for      131
Structure function, Gell - Mann - Brueckner perturbative expansion      134
Structure function, Hamiltonian for      131
Structure function, parameter differentiation of total energy      132-134
Superconductivity      1 312-313
Superconductivity, and BCS ground state      234-237
Superconductivity, and condensation energy      243
Superconductivity, and critical magnetic field      243-244
Superconductivity, and electron-phonon coupling      214
Superconductivity, and energy gap      244-247
Superconductivity, and free-energy density      210
Superconductivity, and ground state energy      239-243
Superconductivity, and heat capacity      211-212
Superconductivity, and isotope effect      213-214
Superconductivity, and Josephson tunneling      271-273
Superconductivity, and Meissner effect      206-211
Superconductivity, and microwave and infrared properties      213
Superconductivity, and model interaction      217-219
Superconductivity, and nuclear-spin lattice relaxation      213
Superconductivity, and pair amplitude      228-234
Superconductivity, and pair fluctuations      237-239
Superconductivity, and penetration depth      209
Superconductivity, and phase rigidity      205
Superconductivity, and quasi-particle excitations      247-251 252
Superconductivity, and thermodynamics      251-256
Superconductivity, and ultrasonic attenuation      213
Superconductivity, and zero resistance      206
Superconductivity, Bardeen - Cooper - Schrieffer (BCS) theory      205
Superconductivity, Fermi-liquid theory      224-228
Superconductivity, of Cooper pairs      205-206 219-223
Superconductor      251
Taylor expansion      210
Taylor series      6
Temperature derivative of the entropy      5
Thermodynamics      251-256
Thomas - Fermi screening      115-118
Thomas - Fermi screening, Fermi - Dirac distribution and      116
Thomas - Fermi screening, Fourier transform for      116 117
Thomas - Fermi screening, Poisson distribution and      115-116
Thomas-Fermi approximation      226
Tight-binding model      278-279
Tight-binding model, Tomonaga model      152
Transverse resistivity      351
Tuning parameter      308
Tunneling      172
Tunneling, into Luttinger liquid      171 172
Two-body potential      216
Two-body wave function      220
Ultrasonic attenuation      184-186 260-266
Ultrasonic attenuation rate      265 268
Umklapp process      159 171 182
Vacuum state      18 24
Vector potential      258
Vortices      308
Weak localization      278 291-298
Wick's theorem      47
Wigner - Seitz cells      42 44 45
Wigner - Seitz method      42-45 46
Wigner crystal      3 45 46 365 367
Wigner crystal, melting      49
Wigner interpolation      48
Wigner interpolation scheme      45
Wigner melting boundary      49
Wigner scheme      48-49
Wigner solid      45-49
Wigner solid, correlation energy      47
Wigner solid, Coulomb energy      45
Wilson renormalization group approach      104
Zeeman energies      268
Zero-bias anomaly      94

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