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Plischke M., Bergersen B. — Equilibrium statistical physics
Plischke M., Bergersen B. — Equilibrium statistical physics



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Название: Equilibrium statistical physics

Авторы: Plischke M., Bergersen B.

Аннотация:

This third edition of one of the most important and best selling textbooks in statistical physics, is a graduate level text suitable for students in physics, chemistry, and materials science. Highlights of the book include a discussion of strongly interacting condensed matter systems with a thorough treatment of mean field and Landau theories of phase transitions. Discussions of the Potts model and the asymmetric exclusion process have been added. Along with traditional approaches to the subject such as the virial expansion and integral equations, newer theories such as perturbation theory and density functional theories are introduced. The modern theory of phase transitions occupies a central place in this book. A separate, largely rewritten, chapter is devoted to the renormalization group approach to critical phenomena, with detailed discussion of the basic concepts of this important technique and examples of both exact and approximate calculations given. The development of the basic tools is completed in an expanded chapter on computer simulations in which both Monte Carlo and molecular dynamics techniques are introduced.


Язык: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Издание: 3rd

Год издания: 2006

Количество страниц: 639

Добавлена в каталог: 22.11.2014

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
Survival probability      309 312
susceptibility      1 74 97 367 369 397—399
Susceptibility, anisotropic      119
Susceptibility, critical exponent      75 210 211 213 217 220 221 235
Susceptibility, electric      465
Susceptibility, frequency dependent      462—490
Susceptibility, generalized      462
Susceptibility, magnetic      19 20 465
Susceptibility, one-dimensional Ising model      80
Susceptibility, scaling properties      220 223
Susceptibility, series expansion      204 205 224 235
Swelling      391 392 403 404
Symmetry breaking      104 290 291
Synapse      371
Synchrotron radiation      169
System size parameter      313
T-matrix      527 528
Temperature, fluctuations      355
Temperature, scale      7 24
Temperature, statistical definition      34 36
Tethered membranes      383 406 407 413 415 417 418
thermal conductivity      503—507 510
Thermal expansion coefficient      14 27
Thermal wavelength      35 45 46 57 144
Thermodynamic equilibrium      5
Thermodynamic limit      2 34 35 78 79 257 276 365 368 384 388 389 399 419 531
Thermodynamic potentials      9—12
Thermodynamic process      4
Thermodynamic stability      15
Thermodynamic variables      2 13
Thermodynamics      1—28
Thermoelectric effects      493 503—507 510
Thomas — Fermi approximation      483 484 507
Three-body interactions      143
Tight binding method      515
Time reversal symmetry      494
Tolerance      36 52
Tonks gas      181
Trans configuration      384
Transfer matrix      107 276 278 565
Transfer matrix, one-dimensional Ising model      78 102 103 106
Transfer matrix, one-dimensional Schrodinger equation      517—523
Transfer matrix, two-dimensional Ising model      184—186 191 192 194 199 218 233
Transition probability      360
Transition rate      305 467 499
Transport coefficients symmetry      509
Transport properties      490—507
Transposition      377
Traveling salesman problem      376—379 382
Triangular lattice      259 267 270 271
Tricritical point      90—93 98 104—106 120 121 123
Triple point      20 24
Tsallis, C.      51
Tunneling      499 524
Two-body forces      144
Two-body operator      577
Type I and type II superconductors      455
Umklapp      475
Universality      183 209 223 225 246—248 279 291 536 541
Update rule      372
Upper critical dimension      98 386 409
Utility      130
Vacancy      53 54 59
Van der Waals equation      2 123—127 143
Van der Waals forces      393
van der Waals theory      131 393
van der Waals theory of interfaces      163 165 172
vapor pressure      27
Variational principles      29
Velocity relaxation time      327
Velocity-velocity correlation      354 357
Velocity-velocity correlation function      327
Velocity-Verlet algorithm      352
Vibrational degree of freedom      59
Virial      355
Virial equation of state      356
Virial expansion      403
Virial, coefficients      3 145 158
Virial, equation of state      2
Virial, expansion      144—150 159 161 181 182
Virtual crystal approximation      525
viscosity      353
Vortex unbinding      231
Vortices in superfluid Helium      435
Vortices, two-dimensional XY model      229—232
Wannier states      515 527
Weak-coupling approximation in superconductivity      452
Weiss molecular field theory      64 66 115 117
White dwarf      60
Wiedemann — Franz law      506
Wilson, K.G.      241
Work      3—6 9—11 18 26
X-ray scattering      414
XY fixed point      247
XY model      206 210 211 223 224 226 300
Zeeman energy      65
Zero temperature Monte Carlo simulation      372
Zero temperature quench      377 378
Zeroth law of thermodynamics      3 36
1 2 3 4
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