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

Multiple shock compression, photoionization      267
Multiple shock compression, statistical weight, ground state      182
Mustel’, E.P.      107 423
Myers, H.      201[14] 218[14] 425
Na      see “Sodium”
Na, cross section for photoprocesses      404
Na, photoionization      267 268
NaCl      see “Sodium chloride”
Nadezhin, D.K.      636 873
Narasimha, R.      577[24] 872
Natural line width      114 285 292
Ne, excitation of      391
Ne, ionization of      389
Neal, R.A.      415[72] 438 513[87] 514[87] 869
Nechaev, M.N.      807 807[27] 880
Negative ions, photon absorption by      see “Photodetachment”
Nelson, W.C. (ed.)      504[92] 870
Nemchinov, I.V.      106 423(2) 678 874
Nernst theorem      230 690 691
Niblett, G.B.F.      513[40 79] 867 869
Nicholls, R.W.      321[22] 430
Nikitin, E.E.      368 436
Nikol’skii, G.M.      392[79] 396[79] 439
NO, absorption by      324
NO, absorption coefficients      324
NO, activation energy for decomposition      378
NO, activation energy for formation      377 378
NO, concentration in air      190
NO, dissociation energy      184
NO, doublet splitting, ground state      182
NO, electronic states and band systems      305 314 319—321 324
NO, first excited electronic state, energy      182
NO, formation in dissociated air      187
NO, formation of      189 374—378
NO, formation of in strong explosions      564—571
NO, Frank — Condon factors for $\beta$ -system      319 320
NO, ionization of      389
NO, ionization potential      385
NO, oscillator strength      333 334
NO, potential curves      314
NO, reaction rate constant for formation of      191
NO, relaxation time in formation of      378
NO, rotational energy      178
NO, statistical weight, ground state      182
NO, vibrational energy      178
NO, vibrational relaxation in shock waves      498
Nonequilibrium gasdynamics      547—564 (see also “Relaxation”)
Nonequilibrium gasdynamics, state variables      549
Nonlinear heat conduction      654 ff. (see also “Thermal wave”)
Nonlinear heat conduction in moving media      676—678
Nonlinear heat conduction with power law      655 656
Nonlinear heat conduction, dipole solution      674—676
Nonlinear heat conduction, electron      520 521
Nonuniformly heated body, radiation from      138
Nonuniformly heated body, radiation spectrum      139 140
Normal stress      732
Norman, G.E.      276 276[55] 303[49 52] 332[56] 335[58] 429(2) 432(5)
Nova outbursts      572 (see also “Supernovae explosions
Novikov, S.A.      757 761[38] 762[38] 877
Nozdrev, V.F.      555[6] 871
Nuclei for condensation      see “Condensation centers”
Nuclei for condensation, absorption coefficients      334
Nuclei for condensation, concentration in ionized air      197
Nuclei for condensation, cross section for photoprocesses      404
Nuclei for condensation, first excited electronic state, energy      182
Nuclei for condensation, ground triplet state, energy spacing      182
Nuclei for condensation, ionization of      389
Nuclei for condensation, ionization potential      192 385
Nuclei for condensation, photoionization      267 268
Nuclei for condensation, statistical weight, ground state      182
Okhotsimskii, D.E.      99[10] 423
Olfe, D.B.      332[46] 432
One-sided integrated radiant energy flux, equilibrium radiation      117 118
One-sided spectral radiant energy flux, equilibrium radiation      117 118 spectral”)
Optical characteristics      110
Optical pyrometry      245 598 770 771
Optical thickness      111 135 151 532
Optically thick body      135 136
Optically thin body      135 137
Orbital quantum number      306
Oscillator strength      290—292
Oscillator strength for the continuum      298—300
Oscillator strength, hydrogen-like atoms      296 297
Oscillator strength, molecular transitions      321—323 332
Oscillator strength, negative, for emission      291
Oscillator, bound electron as      284—286
Osipov, A.I.      234[2 19] 239[2 19] 243[2 19] 353 356[14] 358 359[77] 361[5] 362[5 66 77] 366 367[5 76 77] 368[5 77] 427 428 434 435 436 438 439(2) 498 502[31 90] 505[90] 866 870
Overlapping of spectral lines      294
Overtaking unloading method      749
Oxidation of nitrogen      189 191 374—382
Oxidation of nitrogen in strong explosions      564—571
Oxidation of nitrogen, rate of      377 570 571
p, u diagrams      90 91
p, V diagrams      55—69
Palmer, H.B.      368[35] 436 502[30] 866
Paolucci, D.      476[10] 864
Partial pressures      186
Partition functions      179—182 (see also “Electronic” “Rotational” “Vibrational
Partition functions, activated complex      372 373
Partition functions, free electron      194
Partition functions, harmonic oscillator      181
Partition functions, m-ion      194
Partition functions, monatomic gas      182
Pashinin, P.P.      338[70 71] 343[71] 344[71] 347[71] 433(2)
Patch, R.W.      368[69] 438 502[67] 868
Patrick, R.M.      242 428
Pauli exclusion principle      220 701
Pavlovskii, M.N.      685[5] 692 722[5] 724[5] 730[5] 731[5] 779[5] 780[5] 781[5] 875
PB      see “Lead”
Pease, R.N. (ed.)      234[3] 243[3] 427
Peclet number      72
Peebles, G.H.      231[33] 427 703[19] 876
Pekeris, C.L.      266[4] 428
Peng, T.C.      515[83] 869
Penner, S.S.      234[1] 243[1] 281[50] 323[25] 332[47] 427 430 431 432(2)
Perfect black body      118
Perfect gas      3 183
Perfect gas, constant specific heats      176—178
Peterson, E.L.      745[30] 751 756[30] 876
Petralia, S.      353[10] 435
Petschek, H.      391[50] 421[50] 437 505 507 508 510 510[35] 511 512[35] 866
Phase transition of solids      69 750—762
Phase transition of solids, relaxation      753
Phase transitions of the first kind      751 (see also “Polymorphic transformations”)
Phosphorous, black      781
Photochronogram      783
Photodetachment      268
photoelectric effect      113 114
Photoexcitation      406
Photoionization      112 264—269 384 385 402—406
Photoionization, cross section      265 266
Photon absorption      110
Photon absorption in air      603—606
Photon and electron collision processes, relation between      256
Photon distribution function      108
Photon emission, probability of      119
Photon gas      116
Photon lifetime      111
Photon mean free path      111 (see also “Radiation mean free path”)
Photon mean free path in air      605 607 611
Photon mean free path, absorption      115
Photon mean free path, scattering      15
Photon number as invariant of electromagnetic field      172—175
Photon scattering      110
Photorecombination      112 384 385 402—406
Photospheres      see “Stellar photospheres”
Pikel’ner, S.B.      515 869
Pilipetskii, N.F.      341 434
Pinch effect      242
Pipkin, A.C.      513[77] 869

Pitaevskii, L.P.      407 409 411[87 88] 412 412[87 88] 439(2)
Plakhov, A.G.      686[12] 875
Planck constant      441 881
Planck distribution function      121
Planck function      116
Planck mean free path      166
Plane heat source, linear conduction      657—659
Plane heat source, nonlinear conduction      660 663—668
Plane photosphere problem      158—164
Planet, W.      332[32] 335[32] 431
Plasma relaxation in shock waves      515—526
Plasmas, polarization in      509 522—526
Plasmas, relaxation in      416—421 515—526
Plastic state      737—741
Plastic wave      745 746
Plastic wave speed      743
Pleshanov, A.S.      188[5] 191[5] 425
Point explosion      93 (see also “Strong explosion”)
Point explosion with counterpressure      99—101
Point heat source, nonlinear conduction      668—672
Point impact      839
Poisson’s adiabatics      see “Isentropes”
Poisson’s equation with spherical symmetry      224
Poisson’s ratio      734 737 742
Polarization of a plasma      509 522—526
Poltavchenko, D.S.      242 427
Polyatomic molecules, dissociation      183
Polyatomic molecules, linear      178
Polyatomic molecules, nonlinear      178
Polymorphic transformations      69 751 752
Popov, N.A.      792[18] 799 832 832[18] 879
Popova, L.T.      692[15] 731 875
Population inversion      123
Porous media, gas flow in      657
Porous media, shock waves in      712—716
Porous media, strong explosions in      846—849
Potassium, degeneracy temperature      701
Potential energy of a solid      689—705
Potential pressure      225—227
Poynting vector      108 169
Poynting — Robertson effect      596
Prandtl front thickness      82
Prandtl number      471
Precursor wave      745
Predvoditelev, A.S., et al      187[3] 191[3] 424
Preheating layer      661 662
Preheating layer, electron heat conduction      518—520
Preheating layer, radiation      529—537 539 542 601
Preheating temperature      529 530 536 601
Pressman, A.Ya.      577[25] 872
Pressure diffusion      483
Pressure diffusion with viscous stress      484
Pressure from Coulomb interactions      217
Pressure in condensed media      686 687 694 699
Pressure, approximate relation for, with multiple ionization      205
Pressure, degenerate electron gas      220
Pressure, electronic      703—705
Pressure, ionized gas      193
Pressure, radiation      see “Radiation pressure”
Priming electrons      340 384 401
Priming electrons in shock waves      505 506 510 513
Probability of atomic transitions      288—292
Probability of molecular transitions      316—321
Probstein, R.F.      525 870
Prokhindeev, A.V.      338[70] 433
Prokhorov, A.M.      338[71] 343[71] 344[71] 347[71] 433
Prokof’ev, V.A.      213 426
Proton mass      441 881
Puckett, A.E.      476[7] 864
Quantum numbers, molecular      304 306—308 316
Quasi-energy      125
Quasi-equilibrium      120
Quasi-momentum      126
Rabinovich, M.S.      343[74] 433
Radiant energy conservation      130
Radiant heat exchange in a fluid      141—144
Radiating layer      139 540 602 610 644 645 774—776
Radiation      107 ff. 246
Radiation continuity equation      130 145
Radiation cooling of air      626—634
Radiation energy      168 197
Radiation energy in shock waves      526 543—546
Radiation energy losses      164—168
Radiation entropy      see “Entropy of radiation”
Radiation from a plane layer      135—137
Radiation from accelerated electron      249
Radiation front      613
Radiation heat conduction approximation      151—156 163 164 654—656
Radiation heat conduction approximation in shock waves      540
Radiation in shock waves      526—546
Radiation in shock waves with radiation pressure      543—546
Radiation in shock waves, critical case      530 536
Radiation in shock waves, subcritical case      529 535—539
Radiation in shock waves, supercritical case      530 539—543
Radiation intensity      see “Spectral radiation intensity”
Radiation mean free path, averaged for optically thick body      see “Rosseland mean free path”
Radiation mean free path, averaged for optically thin body      see “Planck mean free path”
Radiation mean free path, power-law relation      655 678
Radiation momentum      see “Momentum density of radiation”
Radiation pressure      142 168 172 197
Radiation pressure in shock waves      526 543—546
Radiation pressure, isotropic field      117
Radiation specific heat      654
Radiation spectrum      108
Radiation spectrum, optically thick body      167
Radiation spectrum, optically thin body      167
Radiation thermal conductivity coefficient      153 654—657
Radiation thermal conductivity coefficient, power-law relation      655
Radiation thermal diffusivity coefficient      655
Radiation wave      344 348
Radiation, equilibrium      see “Equilibrium radiation”
Radiative capture      see “Electron capture”
Radiative emission in spectral lines      300—303
Radiative equilibrium in a star      157—164 817
Radiative transfer      107
Radiative transfer equation      128—130 132
Radiative transfer equation in shock waves      532 533
Radiative transfer equation, quasi-steady      133
Raizer, Yu.P.      201[15] 206[15] 210[16] 257[61] 276[18] 280[18] 281[62] 337[39] 338[38 71] 343[62 71 77] 344[71 77] 347[71 77] 348[77 86] 379[41] 380[41] 413[90] 423 425(2) 429 431(2) 432 433(3) 434 436 439 527[47-49] 531[48] 538[47] 566[13] 570[13] 577[17 26 27] 579[28] 581[28] 583[28] 584[28] 591[19 20] 593[19] 594[19] 596[19] 600[2-4] 610[4] 618[14 15] 625[15] 627[16 17] 638[16 17] 642[16] 646[17] 649[17] 773[43] 839[20] 843[20] 851[31] 854[30] 859[31] 862 863[32] 867(3) 871(4) 872(6) 873(4) 877 879 880(3)
Rakhmatulin, Kh.A.      744 876
Rakhmatulin, Kh.A. (ed.)      234[4] 238[4] 239[4] 243[4] 427
Ramsden, S.A.      338[69] 344[69] 344 347[69] 433 434
Ramstetter, Dr.-Ing.      379[44] 437
Rarefaction shock waves      59—62 757—762
Rarefaction shock waves with anomalous thermodynamic properties      67—69
Rarefaction shock waves, collision of      761
Rarefaction wave      33—37 (see also “Centered rarefaction wave”)
Rarefaction wave, attainable states      62
Rarefaction wave, cylindrically symmetric      43
Rarefaction wave, spherically symmetric      43
Rate equations      550
Rate equations, vibrational relaxation      550
Rate of excitation or deexcitation      see “Relaxation”
Ratio of specific heats      4 (see also “Specific heat ratio”)
Rayleigh problem      807—810
Rayleigh — Jeans law      116
Rayleigh — Jeans region of spectrum      122
Rayleigh, Lord      81 477 807 865 878
Rb, photoionization      267 268
RbH, potential curves      319
Re-radiation      129
Reaction rate by activated complex method      372 (see also “Chemical reactions” “Relaxation”)
Recombination      382 387 577 578 “Ionization”)
Recombination by three-body collisions      406—413
Recombination coefficient      387 578 579
Recombination rate      388 395 578 579
Recombination, diffusion model for      408—412
Recombination, impact-radiative      413
Recombination, kinetics of      574 575 578—585
Recombination, molecular      364—368 387

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