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Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 1)
Zel'dovich Ya.B., Raizer Yu.P. — Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 1)

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Название: Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 1)

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: en

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1966

Количество страниц: 464

Добавлена в каталог: 11.10.2005

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID
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Предметный указатель
$Br_2$, dissociation rate      368
$CO_2$, rotational relaxation time      353
$D_2$, rotational excitation energy      352
$D_2$, rotational relaxation time      353
$H^-$, binding energy      268
$H^-$, photodetachment      269
$H_2$, excitation of      391
$H_2$, ionization of      389
$H_2$,as shock tube driver gas      237 238
$H_2$,properties behind shock waves      213
$H_2$,rotational energy      178 352
$H_2$,rotational relaxation time      353
$I_2$, dissociation rate      368
$I_2$, recombination rate      365
$N0_2$, absorption cross section      337
$N0_2$, concentration in air      338
$N0_2$, formation of      378—382
$N0_2$, relaxation time in formation of      379 380
$N0_2$, vibrational energy      178
$NH_3$, rotational relaxation time      353
$NO^+$, dissociative recombination of      385
$NO^+$, in air      385
$N^-$, experimental data      335
$N^{+4}$, photoionization      268
$N_2$, absorption coefficients      334
$N_2$, dissociation energy      184 213
$N_2$, dissociation of      187 188
$N_2$, electronic states and band systems      305—310 312 321
$N_2$, energy level diagram      307
$N_2$, first excited electronic state, energy      182
$N_2$, ionization of      389
$N_2$, ionization potential      192
$N_2$, NO, $0_2$      184
$N_2$, oscillator strength      333 334
$N_2$, recombination rate      364 365
$N_2$, rotational energy      178 352
$N_2$, rotational relaxation time      353
$N_2$, statistical weight, ground state      182
$N_2$, vibrational energy      178 352
$N_2$, vibrational relaxation time      361
$N_{2}^+$, dissociative recombination of      385
$N_{2}^+$, electronic states and band systems      305 321
$N_{2}^+$, oscillator strength      334
$O^-$, absorption cross section      268
$O^-$, binding energy      268
$O^{+5}$, photoionization      268
$O_2$, absorption coefficients      334
$O_2$, dissociation energy      184
$O_2$, dissociation of      187 188
$O_2$, dissociation rate      367
$O_2$, dissociation relaxation time      368
$O_2$, effect of H20 on vibrational excitation      361
$O_2$, electronic states and band systems      305 313 321
$O_2$, first excited electronic state      182
$O_2$, ionization of      389
$O_2$, ionization potential      192 385
$O_2$, oscillator strength      333 334
$O_2$, potential curves      314
$O_2$, recombination rate      368
$O_2$, rotational energy      178 352
$O_2$, rotational relaxation time      353
$O_2$, statistical weight, ground state      182
$O_2$, vibrational energy      178 353
$O_2$, vibrational relaxation time      361
$O_{2}^+$, dissociative recombination of      385
$O_{2}^-$, binding energy      268
$O_{3}$, formation of      367
Absorption      110 113—115 119
Absorption coefficient      110 115 120 “Mean
Absorption coefficient, bound-bound      113
Absorption coefficient, bound-free      113
Absorption coefficient, continuous spectra      140
Absorption coefficient, frequency dependence      138 139 144
Absorption coefficient, mass      111
Absorption coefficient, spectral lines      140
Absorption cross section      113
Absorption cross section, at line center      114
Absorption cross section, spectral line      294 295
Absorption curve      269
Absorption lines      139
Absorption spectrum, hydrogen-like atoms      293—297
Absorption spectrum, molecular      321—330
Absorption wave      344—348
Absorption, for concentration measurement      244
Absorption, probability of      121
Absorptivity      118
Acoustic equations      7
Activated complex method      370—373
Activated complex method, in $NO_2$ formation      381
Activated complex method, reaction rate      372
Activation energy      189 368
Adiabatic condition      357
Adiabatic condition, quantum mechanical      400
Adiabatic exponent      208
Adiabatic invariant      172
Air, as shock tube test gas      238
Air, degree of ionization, comparison of exact and approximate calculations      206
Air, dissociation of      184 187
Air, equilibrium composition with dissociation and ionization      187
Air, internal energy with ionization      206
Air, ionization of      187 188 413—416
Air, properties of, behind shock waves with dissociation and ionization      211—213
Air, properties of, radiative      331 ff.
Air, properties of, thermodynamic      188
Air, properties of, with ionization      196 197
Air, radiation intensity curve      336
Air, species present at high temperature      331
Al, photoionization      276
Allen, C.W.      396[86] 405[86] 439
Allen, R.A.      332[45] 335[57] 364[70] 432(2) 438
Ambartsumian, V.A. (ed.)      267[6] 269[6] 404[55] 423 428 437
Ambartsumyan, R.V.      338[72] 433
Angular distribution of radiation      144—151 155
Anharmonic molecular vibrations      183
Anharmonic oscillator      127
Anharmonic oscillator, in laser effect      123
Anomalous absorption      75
Anomalous thermodynamic properties      67—69
Ar, as shock tube test gas      237 238
Ar, excitation of      391
Ar, ionization by Ar      400
Ar, ionization by K      400
Ar, ionization of      389
Ar, ionization potential      385
Ar, photoionization      276
Ar, properties behind shock waves      213
Arbitrary discontinuities      84—92
Arc discharge spectra      201
Armstrong, B.H.      332[32a] 431
Arrhenius' law      369
Askar'yan, G.A.      343[74] 433
Associative ionization      414 415
Atkinson, W.R.      239[6] 427
Atom recombination rates      364 365
Atomic cell      223 229
Atomic cell, entropy of      230
Atomic line spectra      283 ff.
Attenuation coefficient      110
Attenuation coefficient, mass      111
Attenuation of a light beam      111
Average ionic charge, multiply ionized gas      203 279
Average ionization potential      203
Average ionization, degree      see “Multiple ionization” “approximate
Avogadro number      441
Band spectra      112 303
Bartell, L.S.      124[12] 424
Basov, N.G.      338[72] 348 433 434
Bates, D.R.      268 412 412[89] 413[89] 428 439
Bates, D.R. (ed.)      256[53] 268[53] 287[53] 292[53] 390[83] 391[83] 395[83] 396[83] 413[83] 414[83] 432 439
Becker, R.      285[19] 287[19] 429
Belen'kii, S.Z.      171 424
Benson, S.W.      201[14] 218[14] 425
Berg, H.F.      241[8] 427
Bernoulli equation      42 49
Beta band system of NO      305 320 323—330 334
Bethe, H.A.      231[33] 266[5] 289 296[5] 299[5] 313[21] 319[21] 321[21] 324[21] 326[21] 328[21] 426 428 430
Biberman, L.M.      276 276[55] 283[17] 297 303[49] 321[23] 323[27] 332[56] 392[81] 393[81] 429(3) 430(2) 432(4) 439
Bimolecular reactions      369
Binding energy      see “Dissociation energy”
Black body      118 (see also “Perfect black body”)
Black-body radiation      115—118
Blackman, V.      360 360[16] 435
Blythe, P.A.      362[62] 438
Bodenstein, M.      379
Bohr radius      442
Boiko, V.A.      338[72] 433
Boltzmann constant      441
Boltzmann statistics      121
Boltzmann's law for equilibrium radiation intensity      121
Born approximation      254
Bose quantum statistics      121
Bound electron states      111
Bound-bound transitions      112 144 283
Bound-free absorption      114 264—269
Bound-free absorption coefficient      114
Bound-free absorption cross section      114
Bound-free transitions      112 261
Brachman, M.K.      230 426
Brackmann, R.T.      389[48] 437
Bradt, P.      364[21] 435
Bragg angles      124
Branscomb, L.M.      269[9] 429
Break-up of arbitrary discontinuities      see “Arbitrary discontinuities”
Breakdown in a laser beam      338—343
Breakdown wave      344 347
Breen, F.H.      283 429
Bremsstrahlung      113
Bremsstrahlung absorption      115 259
Bremsstrahlung absorption coefficient      114
Bremsstrahlung emission      248 ff.
Bremsstrahlung emission, from a neutral atom      255—258
Bremsstrahlung emission, quantum effects      254
Bremsstrahlung emission, quasi—classical condition      253
Bremsstrahlung, from a neutral atom      113
Bremsstrahlung, from an ion      113
Brightness temperature      138 139
Brightness temperature, for integrated radiation      see “Integrated brightness temperature”
Britton, D.      365[25] 368[25] 368[36] 436(2)
Brode, H.L.      99[9] 423
Brown, S.C.      256[60] 338[60] 389 391[78] 432 439
Bulk viscosity coefficient      73 76 353
Bunker, D.L.      365[26] 436
Burch, D.S.      269[9] 429
Burgess, A.      276 429
Burhop, E.H.S.      389 391[45] 401[45] 406[45] 412[45] 437
Buss, J.H.      201[14] 218[14] 425
Byron, S.R.      367 391[50] 421[50] 436 437
C, cross section for photoprocesses      404
C, photoionization      267 268
Ca, cross section for photoprocesses      404
Ca, photoionization      267 268
Camac, M.      362[59] 367 438(2)
Camm, J.C.      269[8] 305[8] 321[8] 326[8] 330[8] 332[8] 332[31] 332[45] 333[8] 364[70] 429 431 432 438
Cascade emission      126 127
Centered compression wave, impossibility of continuous solution for      43
Centered rarefaction wave      37 38 41
Centered rarefaction wave, head      38
Centered rarefaction wave, tail      38 (see also “Self—similar motion”)
Centered simple wave      37 (see also “Centered rarefaction wave” “Self—similar
Chain reaction mechanism, in NO formation      375
Champlain's theorem      61
Chandrasekhar, S.      283 429
Chapman — Jouguet point      346
Characteristic equations      19
Characteristics      15—18
Characteristics, domain of dependence      22
Characteristics, isentropic flow      17 19—25
Characteristics, nonisentropic flow      17
Characteristics, numerical integration      24
Characteristics, region of influence      23
Charge conservation condition      193
Charge exchange      386 416
Chemical equilibrium, effect on thermodynamic properties      189
Chemical potential, degenerate free electron gas      221 222
Chemical reaction rate      189
Chemical reactions      188—192 368—373
Chernyi, G.G.      97 422
Christian, R.H.      213 426
Cohen, A.      239[5] 427
Coherent light      123
color temperature      140 141
Compressed atom      226—228
Compressed atom, electron density distribution      226
Compression wave, "overshooting" of      44
Compression wave, attainable states      62
Compton effect      124 125
Compton scattering      125
Compton wavelength      442
Compton, W.D.      239[6] 427
Conditional equilibrium      see “Metastable equilibrium”
Connor, J.V.      353[9] 435
Conservation of number of atoms, condition      185 190 193
Contact discontinuity      87—91
Contact discontinuity, thickness      90 91
Contact surface, as a "piston" in shock tubes      236 237
Continuous absorption      269—276
Continuous spectra      112 113 248
Correction factor, bound—free transitions      266
Correlation effect in bremsstrahlung emission      257
Coulomb collisions      417
Coulomb energy of a gas      216
Coulomb field, divergence in effective radiation      251
Coulomb interactions      215
Courant, R.      20[14] 423
Cowan, G.R.      353 353[2] 434
Critical point      68
Cross section, absorption      113 (see also “Absorption cross section”)
Cross section, bound—free absorption      114
Cross section, Coulomb collision      419
Cross section, emission      252
Cross section, excitation      391 396
Cross section, for electron capture      263
Cross section, ionization      388 392—395
Cross section, photoionization      265 266
Cross section, photoprocesses      402
Cross section, resonant scattering      114
Cross section, scattering      113 115
Cross section, Thomson      115 443
Cross section, transport scattering      256
Cs, photoionization      267 268
Cummings, F.W.      124[10] 424
Daiber, J.W.      416[92] 440
Dalgarno, A.      416 438
Damon, E.K.      338[66] 433
Damping constant      284 445
Danilov, A.D.      416 440
Davidson, N.      365[25] 365[26] 368[25] 368[36] 436(3)
Davies, D.R.      212 426
Davies, W.E.R.      338[69] 344[69] 347[69] 433
Davis, L.W.      124[9] 424
Dawson, J.M.      348[80] 434
Debye radius      216
Debye — Huckel method      216—218
Decibels      9
Decomposition coordinate      369
Deexcitation      382 390
Degeneracy temperature, electron gas      219 220
Degenerate electron gas      220—222 231
Degree of ionization      195
Degrees of freedom      177 349
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