Mihalas D., Mihalas B.W. — Foundations of Radiation Hydrodynamics :: Электронная библиотека попечительского совета мехмата МГУ

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Mihalas D., Mihalas B.W. — Foundations of Radiation Hydrodynamics

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Название: Foundations of Radiation Hydrodynamics

Авторы: Mihalas D., Mihalas B.W.

Аннотация:

Excellent, informative volume focuses on dynamics of nonradiating fluids, problems involving waves, shocks and stellar winds, physics of radiation, radiation transport, and the dynamics of radiating fluids. (1984 ed.)

Язык:

Рубрика: Физика/Классическая физика/Механика жидкости и газа/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1984

Количество страниц: 718

Добавлена в каталог: 29.06.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Moving mesh      (see Adaptive mesh)
Multifrequency/grey method      476—477 484 503
Multigroup      493 499—503
Multigroup, Diffusion      475—478
Multigroup, Moment equations      475 499
Multigroup, Opacities      355—365 475—477
Multigroup, Radiation      337—386 421—426 432-448 457—503
Multigroup, Transport      478—481 492—500
N-wave      230 260—263 586
Navier — Stokes equations      86—88 108 167
Newton — Raphson method      393—395 404 407 476—477 484—489 496—497 499 503
Newton-Cotes formula, quadrature weights      359
Newtonian, Absolute space      129
Newtonian, Cooling approximation      522—524 536—545
Newtonian, Fluid      83
Newtonian, Force density      427
Newtonian, Relativity      129
Newton’s Law of Cooling      511
Newton’s laws, invariance of      129—130
Non — Newtonian fluid      72
Nonequilibrium flow      107—126
Nonequilibrium gas      395
Noninertial frame      420
Noninertial frame, Formulation of transfer equation      438—447
Nonpolar fluid      72
Normal rates of strain      65
Normal stress      68 105
Nova explosion      285
Nuclear evolution time      285 342 451 488
Null cone      135 418 439
Null interval      134
Number conservation      392
Numerical stability      269—273
Nusselt number      95
Occupation number      37 386 397
Occupation number, Saha — Boltzmann formula for      48—49
Opacity      325—329 331—332
Opacity, Anisotropy in lab frame      325
Opacity, Bound-bound      332
Opacity, bound-free      332
Opacity, Continuum      332—333
Opacity, Distribution function      365 475 493—495
Opacity, Effect of Doppler shift      325
Opacity, Extinction coefficient      325
Opacity, Free-free      332
Opacity, Grey      350—353
Opacity, in stellar pulsation calculations      486
Opacity, Invariant      414 419 438—443 463
Opacity, Isotropy in comoving frame      325 413—414
Opacity, Lab-frame      333
Opacity, Line      329—330 332—333
Opacity, Lorentz tiansormation of      413—414
Opacity, Mean      351 355—366 472—478
Opacity, Multigroup      355—365 475—477 492-494 494—500
Opacity, Nongrey      355—366
Opacity, Pickets      366
Opacity, Relation to photon mean free path      325
Opacity, Sampling technique      366
Opacity, Temperature sensitivity in pulsations      480
Optical depth      336 487
Packet velocity      176
Parallel displacement      681—682
Partial      27
Partial pressures, Dalton’s law      27
Particle conservation      389 392
Particle flux density vector      146 157
Particle mean free path      96—102
Particle mean free path, Relation to shock thickness      259
Particle mean free path, Relation to wave-damping length      180
Particle path      57
Particles, distinguishable      38
Partition function      40—41 44—47
Partition function, electronic      45—46
Partition function, rotational      45
Partition function, Translation motion      44—46
Partition function, vibrational      45
Pathlength      345 418 439 681—682
Pauli exclusion principle      44
Peclet number      95
Peclet number, Analogy with Boltzmann number      410
Pencils of radiation      358
Perfect gas      2—3
Perfect gas plus thermal radiation      322
Perfect gas, Adiabatic compressibility      9
Perfect gas, Adiabatic exponent of      9—10 27 44
Perfect gas, equation of state      2—3 26—27
Perfect gas, internal energy of      9 26 46
Perfect gas, Isothermal compresibility of      9
Perfect gas, law      46
Perfect gas, Period, wave      174
Perfect gas, Specific enthalpy of      9 26
Perfect gas, Specific entropy of      9 27 45 47
Perfect gas, Specific heats of      9 26—27 44 46
Permutation symbol      656
Pfaffian derivative      440
Phase space      35—36
Phase space, quantum states in      37—38 48—49
Phase speed      174 181 183—184 191—195
Phase trace speed      174
Phase-space density, Invariance of      14 153—154 413
Phi-operator      347
Photoionization      331—332 390—392
Photoionization, Process      331
Photoionization, Rate      331 388 391
Photon      143—144
Photon destruction      368 400
Photon diffusion      309—310 342 350 457 458
Photon escape      399
Photon, Boltzmann equation      418—419 439 463
Photon, Collective pool      402
Photon, Destruction probability      367—368 400
Photon, Destructive length      310 367—368 400
Photon, Distribution function      311 414 418—420 439 463
Photon, energy      143 412
Photon, Escape probability      399
Photon, Flight time      100 342
Photon, Four momentum      143 412—413
Photon, frequency      143 311—312 412 432
Photon, Mean free path      309 325 336 350 368 459 562
Photon, Mean free path in shock      259
Photon, Number density      311
Photon, Pool      402
Photon, Propagation vector      144 412
Photon, Random walk      342 350 368
Photon, Redistribution by scattering      327
Photon, Rest energy of      143
Photon, Thermalization length      367—368 400
Photon, Trajectory      419 432 440
Photon, Wave number      144
Pickets, opacity      366
Planck function      317
Planck mean opacity      362 473 602
Planck mean opacity, Group      364 475
Planck mean opacity, Two-temperature      474 475
Plane waves      170—174 190—201 213-217 221—226 230—266 288—295 354-355 507—536
Poisson’s equation      32
Polar fluid      72
Polar vector      661—662
Polarization relations      197—199 539—540 543—545
Polytrope      10 229
Polytrope, Thermal radiation      320
Postshock tail      253 566 571
potential flow      75—76 170—172
Potential, Excitation      45—46
Potential, Ionization      46 48
Potential, velocity      62 170
Power-law potentials      17 19 123
Prandtl number      95
Prandtl number, For monatomic gas      123
Prandtl number, For rigid-sphere gas      101 123

Prandtl relation      235
Precursor, shock, Radiation      565 570—571 576 584
Precursor, shock, Thermal conduction      257
Pressure scale-height      74 190 213
Pressure, From kinetic theory      26—27 105 155
Pressure, From partition function      44
Pressure, hydrostatic      70 83 105
Pressure, Impact      301
Pressure, Ionizing gas      50
Pressure, Ionizing gas plus thermal radiation      322
Pressure, Jump in shock      235
Pressure, Of radiating fluid      468
Principal      67 91
Principal axes of rate of strain tensor      67 91
Principal rates of strain      67 91
Probability, Absorption      329
Probability, Induced (stimulated) emission      329
Probability, Induced recombination      331
Process, adiabatic      4 6
Process, Bound-bound      329—330 332—333 390-392
Process, Bound-free      331—333 390—392
Process, Bremsstrahlung      332 585
Process, Collisional excitation      390
Process, Collisional ionization      390
Process, Emission      325—326
Process, Free-free      332—333
Process, Ionization      48—49
Process, Irreversible thermodynamic      8 90—92 236—237 241—242
Product, cross      658—659
Product, dot      653
Product, inner      653
Product, outer      654—655
Product, scalar      653 671—672
Product, scalar triple      658—659
Product, tensor      654—655
Product, vector      358—359
Product, Vector triple      358—359
Projection tensor      148 160 465
Propagation vector, Photon      144 412—413
Propagation vector, Wave      174
Proper density      145—146
Proper frame      138 144 432
Proper length      133
Proper mass      140
Proper temperature      149
Proper time      133
Pseudovector      661—662
Pseudoviscosity      (see Artificial viscosity)
Pseudoviscous      485
Pulsation, stellar      410 448 470—471 486 490
Pulse, propagating      263—264
Pulse, Quadrature Points      358
Pulse, Sum      358 372
Pulse, Weights      358—359
R-front      615—616 (see also Ionization front)
Radiating fluid, Gas energy equation      429—430 449—450 454 478 499 522 527
Radiating fluid, Ionization front in      611—627
Radiating fluid, Momentum equation      428—429 448—449 452—455 460 468 483 485 496 499
Radiating fluid, Shocks in      557—585
Radiating fluid, Stress-energy tensor      426—427 459 462 465
Radiating fluid, Thermal fluctuations in      523 536
Radiating fluid, Thermodynamics of      320
Radiating fluid, Total energy equation      429—430 451—452 460 469 471
Radiating fluid, Two-temperature description of      473
Radiating fluid, Waves in      521—549
Radiating shock      557—611
Radiation      315 319 351 416—417 460 466 468
Radiation diffusion wave      528—534 549
Radiation hydrodynamics, equations of Comoving frame      448—455
Radiation hydrodynamics, equations of Consistency of      452—455 503
Radiation hydrodynamics, equations of Diffusion limit      457—481
Radiation hydrodynamics, equations of Eulerian      426—432 477—478
Radiation hydrodynamics, equations of Inertial frame      426—432
Radiation hydrodynamics, equations of Lagrangean      448—455 457—494
Radiation hydrodynamics, equations of Mixed frame      422—423 494—500
Radiation hydrodynamics, equations of Quasi — Lagrangean      428—431 498—500
Radiation hydrodynamics, equations of Shock frame      558—559
Radiation hydrodynamics, equations of VERA form      476—478 500—503
Radiation, absorption      326
Radiation, Attenuated waves      513 533—535
Radiation, blackbody      318
Radiation, Boltzmann equation for      418 439 463
Radiation, Compression wave      608
Radiation, Conduction      351 465
Radiation, Diffusion      341—353 457—481
Radiation, Diffusion layer      559—560
Radiation, Diffusion time      342 353 424—426 447 449 458 478
Radiation, Diffusion wave      528—534 549 608
Radiation, Diffusion, nonlinear      552—557
Radiation, Diffusion, terminology      472
Radiation, Effects on shocks      557—611
Radiation, Emission      325
Radiation, Energy density      312 317—318 351—352 416
Radiation, Energy equation      337 422—426 431—432 435 438 446 450 472 482—483 484 487 491 495 527
Radiation, Energy flux      313 346—348 416 449 459 461—469 472
Radiation, Energy spectral profile      473—476 482 484 492 496
Radiation, Exchange zone      562—563
Radiation, Flow time      342 424—426 430 437 445 447 479
Radiation, Flux spectral profile      482 484 492 496
Radiation, Force      339 427 417—418 451 627—645
Radiation, Four force density      417—418
Radiation, Mean intensity      312 346—347
Radiation, Modes      317—318
Radiation, Moments      312—316 337 341 343—349 500
Radiation, Momentum density      313 339 41 5 469
Radiation, Momentum equation      339 422—426 431 432 435—438 446 448—449 482 486 491 495 497
Radiation, Nonequilibrium      310
Radiation, Nonlinear      552—557
Radiation, Pencils      358
Radiation, pressure      314—315 319 351 416—417 453 460 466 468
Radiation, Propagating waves      513—519 534—535
Radiation, Quasistatic      342
Radiation, Quasistationary      342
Radiation, Scattering      326—328
Radiation, Specific intensity      311 343—346 413—414
Radiation, Streaming      316 341 424—426 427 431 447—448 453
Radiation, Stress tensor      314 416 468
Radiation, Stress-energy tensor      414—418 459 461 465
Radiation, Temperature      473 606
Radiation, thermal      316
Radiation, Time dependent      348—349
Radiation, Transfer equation      333—335 337—386 396—407 421—426 432-448
Radiation, Viscosity      461—472
Radiation, Viscous      86 90
Radiation, World scalar      148
Radiation-flow time      342 424—426 430 437 445 447 479
Radiative      467
Radiative conduction      351 465
Radiative conduction, Coefficient of      351
Radiative cooling time      602
Radiative damping, Shocks      557—585
Radiative damping, Temperature fluctuations      507—521
Radiative damping, Waves      521—549
Radiative equilibrium      338 403
Radiative excitation      390—392
Radiative recombination time      388
Radiative relaxation time      509 519 522 537—538 541—543
Radiative Reynolds number      467
Radius, critical      297 636—639
Random velocity      13 105—106 153
Random walk, photon      342 350 368
Random-walk, photon      342 350 353 368 458—459
Rank, tensor      654—655
Rankine — Hugoniot relations      232 240 273 275 287 301 558—559
Rankine — Hugoniot relations, Including radiation      558—559
Rarefaction      233
Rarefaction, Impossibility of discontinuous      239
Rarefied gasdynamics      99
Rate equations      386 389—395 406
Rate equations, In accretion flow      624

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