Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 2) :: Электронная библиотека попечительского совета мехмата МГУ

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Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 2)

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Название: Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 2)

Авторы: Zel'dovich Ya.B., Raizer Yu.P.

Аннотация:

The physical and chemical processes occurring in gases at high temperatures are the focus of this outstanding text by two distinguished physicists. They discuss essential physical influences on the dynamics and thermodynamics of continuous media, combining material from such disciplines as gas dynamics, shock-wave theory, thermodynamics and statistical physics, molecular physics, spectroscopy, radiation theory, astrophysics, solid-state physics, and other fields. Originally published in two volumes

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1967

Количество страниц: 478

Добавлена в каталог: 11.10.2005

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Предметный указатель

Spectral emission coefficient, bremsstrahlung emission      258
Spectral energy flux, one-sided      see “One-sided spectral energy flux”
Spectral line shape      127
Spectral line width      126 127
Spectral lines      283—292
Spectral measurement of light intensity      244
Spectral radiant energy density      109 (see also “Planck function”)
Spectral radiant energy density, equilibrium radiation      116 444 884
Spectral radiant energy flux      109
Spectral radiant energy flux vector      109
Spectral radiation intensity      109 128—130
Spectral radiation intensity, equilibrium radiation      116 444 884
Spectral radiation intensity, integral expressions for      131 132
Spectroscopic notation      306—308
speed of light      441 881
Speed of sound      see “Sound speed”
Speranskaya, M.P.      685[4] 692[4] 722[4] 724[4] 746[4] 746 748[4] 749[4] 750[4] 875
Spitzer, L., Jr.      260 405 418[56] 421[56] 434 437
Split-off      see “Scabbing”
Split-off method      see “Free surface method”
Splitting of waves with phase transition      751—756
Splitting of waves, elastic-plastic      744—746
Spontaneous emission      119 121 127 129
Spontaneous emission, probability of      121
Squire, W.      375[40] 378[40] 436
Stakhanov, I.P.      188[5] 191[5] 425
Stanyukovich, K.P.      93 102[15] 104 104[15] 423 596 699 711 722 789 796 803 803[1] 804 804[1] 845 846 876(2) 878 879 880
Star surface, shock emerging from      812—820
Stark effect      200
Stars      see “Stellar photospheres”
State variables, nonequilibrium      549
Statistical weight, free electron state      192 194
Statistical weight, ground state N, $\mathrm{N_{2}}$ , NO, O, $\mathrm{O_{2}}$       182
Statistical weight, hydrogen-like atom      265
Stefan — Boltzmann constant      117 443 883
Steiger, M.H.      553[2] 870
Stellar photospheres      154
Stellar photospheres, radiative equilibrium in      157—164 817
Steric factor      370
Stewart, H.J.      476[7] 864
Stimulated emission      see “Induced emission”
Stirling’s formula      180
Stoilov, Yu.Yu.      338[72] 433
Strain tensor      732
Streak photography      783
Strehlow, R.A.      239[5] 427
Stress tensor      732 736
Stress tensor, viscous      71
Stress, normal      732
Stress, shear      732
Strong explosion      93—99 566—567
Strong explosion in a porous medium      846—849
Strong explosion in exponential atmosphere      849—852
Strong explosion with counterpressure      94
Strong explosion, approximate treatment      97—99
Strong explosion, similarity law      95 793
Strong shock relations      51 52 94
Strong shock relations with equilibrium radiation      213—215
Stupochenko, E.V.      188[5] 191[5] 234[19] 239[19] 243[19] 353 358 359[77] 362[77] 366 367[76 77] 368[77] 425 428 436 439(2) 498 502[90] 505[90] 870
Subcritical shock wave      535—539
Sudden expansion of a gas cloud into vacuum      101—106 571—585
Sudden expansion of a gas cloud into vacuum with energy release      106
Sudden expansion of a gas cloud into vacuum, condensation in      591—595
Sudden expansion of a gas cloud into vacuum, conditions for self-similarity      104—106
Sudden expansion of a gas cloud into vacuum, frequency of Coulomb collisions      575
Sudden expansion of a gas cloud into vacuum, isothermal      106
Sudden expansion of a gas cloud into vacuum, plane layer      104
Sudden expansion of a gas cloud into vacuum, translational temperature      575 576
Sukhodrev, N.K.      338[70 71] 343[71] 344[71] 347[71] 433(2) 636[23 24] 637[23 24] 873(2)
Sullivan, J.O.      364[23] 435
Sum rule for oscillator strengths      299
Sum rule, molecular      318 319
Sun, unit of illumination      616
Supercooled      see “Supersaturated”
Supercritical shock wave      539—543
Supernovae, cooling wave in      636
Supernovae, explosions of      817—820
Supersaturated vapor      585—588 590 592
Surface brightness, black body      137
Surface brightness, integrated      see “Integrated brightness temperature”
Surface brightness, spectral      136 137
Sviridov, A.G.      276 431
Symmetry factor      181
Symmetry properties, diatomic molecules      308
Syrovatskii, S.I.      817[10] 879
Tamm, I.E.      476 870
Taper tube      242 243
Tarasov, M.S.      757 779 779[45 46] 780[45 46] 877(2)
Tate, J.T.      389[49] 437
Taylor, G.I.      93 422 618 874
Taylor, H.S.(ed.)      234[3] 243[3] 427
Teare, J.D.      332[43] 368[53] 386[73] 415 416 431 437 438 504 513[41] 514 867 868 869
Teller, E.      231[33] 357 426 435 562 871
Temperature, effect on dissociation      186 187
Temperature, measurement of behind strong shocks in solids      770—773
Temperature, translational      350 550
Temperature, vibrational      356 552
Tensile wave      742 (see also “Unloading wave”)
Terebenina, L.B.      332[33] 431
Textoris, A.      335[57] 432
Thermal conductivity coefficient      71 652 653
Thermal conductivity coefficient of radiation      see “Radiation thermal conductivity coefficient”
thermal diffusion      483 484
Thermal diffusivity coefficient      72 75 471 653 654
Thermal diffusivity coefficient, electron      see “Electron thermal diffusivity coefficient”
Thermal diffusivity coefficient, radiation      see “Radiation thermal diffusivity coefficient”
Thermal energy      693—705
Thermal expansion coefficient      56 65 697
Thermal pressure      687 693—705
Thermal pressure, temperature dependence      697
Thermal radiation      107
Thermal wave      660 ff.
Thermal wave, almost-spherical      670
Thermal wave, approach to self-similar solution      681
Thermal wave, constant flux boundary      673 674
Thermal wave, constant temperature boundary      672 673
Thermal wave, dipole solution      674—676
Thermal wave, leading edge      662
Thermal wave, luminosity      672
Thermal wave, plane source      663—668
Thermal wave, point source      668—672
Thermal wave, self-similar solution with motion      678
Thermal wave, self-similar solutions      664—676
Thermal wave, speed compared with shock speed      671 672 677 678
Thermal wave, steady      660 661
Thermodynamic equilibrium      349
Thermodynamic equilibrium, disturbed in shock front      466
Thermodynamic functions of condensed media      688—705
Thermodynamic functions with Coulomb corrections      216—218
Thermodynamic functions, behind strong shocks in solids      770—773
Thermodynamic functions, monatomic gas      182 183
Thermodynamic functions, rotational contribution to      183
Thermodynamic functions, vibrational contribution to      183
Thermodynamic properties of solids      688—705
Thermonuclear reactions, rate of      359
Thin plate wave speed      742
Thin rod wave speed      742
Thomas — Fermi method      220—229
Thomas — Fermi method, generalized for nonzero temperature      229—232
Thomas — Fermi — Dirac method      693
Thomas, L.H.      476[5] 864
Thomas, M.      281[50] 432
Thompson, H.B.      124[12] 424
Thomson cross section      115 443 883
Thomson theory for recombination      406
Thomson, J.J.      392
Threshold for breakdown      342
Threshold temperature      696
Tidman, D.A.      515 867
Timan, B.L.      200[11] 216 425

Tomlinson, R.G.      338[66] 433
Toropkin, Yu.N.      392[81] 393[81] 439
Total absorption coefficient      see “Attenuation coefficient”
Total emission coefficient      120
Transformation groups      668 785—787
Transformation groups, scale      786 787
Transition probabilities, atomic      288—292
Transition probabilities, hydrogen atom      300—302
Transition probabilities, molecular      316—321
Transition probabilities, vibrational      see “Vibrational excitation probability
Transitions between excited states      396—398
Transitions, bound-bound      112 114 283
Transitions, bound-free      112 261
Transitions, electronic      111 246
Transitions, free-free      112—114 248
Translational motion in condensed media      695
Translational partition function      180 182
Translational relaxation      349
Translational temperature      350 550
Transparency temperature      607 608
Transparency temperature in cooling wave      628 632 633
Transparency temperature, heated sphere problem      682
Transport scattering cross section      256
Transverse wave speed      743
Transverse waves      743
Treve, Y.M.      525[45] 867
True absorption coefficient      110
Trunin, R.F.      685[3] 692 698[3] 703[3] 707[3] 708[3] 718[3] 722[3] 724[3] 730[3] 875
Tsukerman, V.A.      219 426 572 686 724 779 779[45 46] 780[45 871 875 877(2)
Turner, R.G.      321[22] 430
Ultraviolet light, absorption in air      604
Ul’yanov, K.N.      392[81] 393[81] 429 439 514 515[99] 870
Unimolecular reactions      369
Unimpeded molecules      659
Unimpeded photons      662
Unloading      762—778
Unloading wave      717 742
Unloading wave, self-similar      763
Unloading, complete vaporization      766—773
Unloading, luminosity of metal vapors      773—778
Unloading, self-similar wave      763
Unloading, supercooled vapor      766
Unloading, superheated liquid      764 765
Unloading, weak      716—722
Unsoeld, A.      107 157 273 276 287[10] 292[10] 300 423 429(2)
Unsteady flow into vacuum      42 101—106 237 547
Urlin, V.D.      692 715 731 756[44 59] 875 877 878(2)
Vali, V.      234[1] 243[1] 427
Valley, L.M.      362[65] 438
Van der Waals’ gas      69
van der Waals’ gas, entropy correction      769
Van Itterbeek, A.      353[7] 435
Vanyukov, M.P.      603 872
Vapor condensation      see “Condensation”
Vaporization in shock waves      762
Vaporization of ground on meteorite impact      845 846
Vaporization on unloading      776—773
Vaughan, A.      367 438 502 868
Vedenov, A.A.      200[34] 427
Vegard — Kaplan forbidden band system      305 307 323
Veklenko, B.A.      507 866
Velocity doubling method      723 (see also “Free surface method”)
Velocity doubling rule      716—718
Velocity doubling rule, accuracy of      718
Velocity doubling rule, porous materials      724
Vermaelen, R.      353[7] 435
Viable nuclei      see “Condensation centers supercritical”
Vibrational energies      182 304
Vibrational energies of condensed media      695
Vibrational energies, $\mathrm{NO_{2}}$       178
Vibrational energies, $\mathrm{N_{2}}$       178 354
Vibrational energies, $\mathrm{O_{2}}$       178 354
Vibrational energies, NO      178
Vibrational entropy      551
Vibrational excitation, probability of      355—361
Vibrational excitation, rate equation for      355 496
Vibrational partition function      181
Vibrational quantum number      304
Vibrational relaxation in CO, $\mathrm{CO_{2}}$ , $\mathrm{N_{2}}$ , NO, $\mathrm{N_{2}O}$ , $\mathrm{O_{2}}$       498
Vibrational relaxation in shock waves      494—498
Vibrational relaxation time      356 360—362 496 497
Vibrational temperature      356 552
Vibrational-rotational coupling      183
Viegas, J.R.      515[83] 869
Violet edge      311 312
Virial theorem, particles in a Coulomb field      227 228
viscosity      69—73
Viscosity coefficient      71 73 473
Viscosity, concept of      467
Viscous stress tensor      71
Visible spectrum      108
Vitense, E.      200[10] 276[12] 425 429
Vladimirov, L.A.      685[4] 692[4] 722[4] 724[4] 746[4] 746 748[4] 749[4] 750[4] 875
Vlasova, Z.P.      99[10] 423
Volmer, M.      592
Volume radiator      135 136
von Hoerner, S.      822 822[16] 879
von Mises, R.      476[8] 864
von Neumann, J.      99[8] 346 423
von Weizsacker, C.F.      822 822[17] 879
Vorob’ev, V.S.      303[49 52] 332[56] 432(3)
Walsh, J.M.      685 718 720[23] 722 731[22] 876(2)
Water, properties behind shock      749
Water, refractive index      783 784
Wave equation for density change in plane motion      7
Wave equation for velocity in plane motion      8
Wave equation, solutions of in plane motion      8
wave number      442 882
Wave number, complex      560 563
Wayland, H.      400[51] 437 510[38] 866
Weak discontinuities      32
Weak shock front structure, entropy maximum      79—81
Weak shock front structure, heat conduction but no viscosity      77—81
Weak shock front structure, viscosity but no heat conduction      81—84
Weak shock wave relations      53 63—67
Weak shock waves      56
Weak shock waves in solids      710 711
Weak shock waves, reflection at free surface      716—722
Weakly anisotropic radiation field      145—151
Weakly imperfect gases      215 216
Weakly ionized gas, photon absorption in      281
Weakly ionized gas, relaxation in      421
Weber, D.      323[25] 430
Weisskopf, V.      126 424
Weissler, G.L.      200[10] 425
Weizel, W.      200[10] 425
Wentink, T., Jr.      269[8] 305[8] 321[8] 326[8] 330[8] 332[8 32] 333[8] 335[32] 364[23] 429 431 435
Wetzel, L.      513[76] 869
Weymann, H.D.      513[39] 866
Wien region      121
Wien’s displacement law      116
Wiese, W.      241[8] 427
Wigner, E.      126 365 424 435
Wilson cloud chamber      586 587 590
Wray, K.L.      364[23] 368[53] 435 437 502 504 868 870
Wright, J.K.      343[75] 433
Wurster, W.H.      368 436
x-ray absorption      244
Xe      207
Xe, ionization relaxation in      513
Xe, photoionization      276
Xe, properties behind shock waves      213
Xe, strong shocks in      603
Yakubov, I.T.      321[23] 332[56] 430 432 510 510[93] 512[93] 513 514 514[97] 870(2)
Yarger, F.L.      213 426 685[23] 720[23] 722[23] 876
Young’s modulus      733 742
Yushko, K.B.      781 782[51] 877
Zababakhin, E.I.      749 807 807[27] 811 878 880
Zadumkin, S.N.      768[39] 877
Zartmann, I.F.      353[6] 434

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