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| Mihalas D., Mihalas B.W. — Foundations of Radiation Hydrodynamics |
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| Ïðåäìåòíûé óêàçàòåëü |
Rate equations, Stiffness of 394
Rate of shear deformation 65
Rate of strain 83
Rate of strain tensor 65 67 82—85 91—92 162 466
Rate of strain, Ellipsoid 68 91
Rate of strain, Normal 65
Ratio of specific heats, Ionizing gas 52
Ratio of specific heats, Ionizing gas plus thermal radiation 322 324
Ratio of specific heats, Perfect gas 9—10 26—27 44
Ratio of specific heats, Perfect gas plus thermal radiation 320 322
Ratio of specific heats, Thermal radiation 319—320
Ray (tangent ray method) 380—383 491 497 503
Rayleigh formulae 249 258
Rayleigh — Taylor instabilities 601 603
Reciprocal tensor 670—671
Recombination 331—332 390—392
Recombination, Processes 331
Recombination, Rate 331 390
Recombination, time 84
Redistribution 327
Redistribution, photon, Complete 327
Redistribution, photon, Function 327
Redistribution, photon, Partial 327
Redistribution, Spontaneous emission 329
Redistribution, Spontaneous recombination 331
Redistribution, Stimulated emission 329
Redistribution, Stimulated recombination 331
Redistribution, Thermodynamic 35 39
Reduced mass 16
Reference frame 129
Reflectance 203
Reflection, wave 201—208 210—212
Refraction, wave 201—207 208—210
Relative mass 140
Relative tensor 667
Relativistic 240
Relativity principle 130
Relativity principle, Einstein’s 130—138
Relativity, galilean 129 433
Relativity, general 152
Relativity, Newtonian 129
Relativity, special 130
Relaxation 84 250
Relaxation process 84 250
Relaxation zone (layer) 251—259
Relaxation zone (layer), Dissociation 251
Relaxation zone (layer), External 252 583—585
Relaxation zone (layer), In fully ionized plasma 254—258
Relaxation zone (layer), In molecular gas 251—254
Relaxation zone (layer), Internal 252 583—585
Relaxation zone (layer), Ionization 258—259 583—585
Relaxation zone (layer), Radiation-exchange 582
Relaxation zone (layer), Rotational 251
Relaxation zone (layer), Temperature 253—259
Relaxation zone (layer), Temperature overshoot in 253
Relaxation zone (layer), Translational 251
Relaxation zone (layer), Vibrational 251
Relaxation, Reversible thermodynamic 4 6 7—8
Relaxation, Scattering 326—328
Relaxation, Thermal (true) absorption 326
Relaxation, Thermonuclear 352—353
Rest energy 142
Rest energy, Of photons 143
Rest mass 142
Retardation effects 490
Retarded time 349
Reynolds number 94
Reynolds transport theorem 60 62
Rezoning scheme 288 433 484 604 606
Ricci rotation coefficient 440 442—443
Ricci’s theorem 676—679
Rigid sphere model 19—20 96—102
Rocket effect 620
Rosseland mean opacity 351 360 464 498 553
Rosseland mean opacity, Group 365 475
Rosseland mean opacity, Optical depth scale 360 406
Rosseland mean opacity, Two-temperature 473
Rotation coefficient, Ricci 440 442—443
Rotation tensor, Newtonian 65
Rotation tensor, Relativistic 161
Rotation, spacetime 138
Rybicki method 377—378 407
Sackur — Tetrode equation 44
Saha ionization formula 48 50 323 332 388
Saha — Boltzmann formula 49 396 388
Sawtooth wave 230
Scalar, field 651
Scalar, Gradient of 659—661 679—681
Scalar, product 653 671—672
Scalar, Triple product 658—659
Scalar, World 134
Scale-height, Coefficient 326
Scale-height, Density 190 213
Scale-height, Effects on statistical equilibrium 396—402
Scale-height, Implications for radiation transport 366 369 396—402
Scale-height, Pressure 74 190 213
Scale-height, Redistribution function 327
Scale-height, Scattering 310 326—328
Scale-height, Thomson 326 332 337 457 474 629
Schatzman cycle 585
Schwarzschild convection criterion 185
Schwarzschild — Milne relation 346—348
Second law of thermodynamics 7—8 166 570
Second law of thermodynamics, Implications for shocks 236—239
Secular equation 65
Sedov, Blast Wave 602
Sedov, Method 291—295
Seed electrons 258
Seed O-star 621
Self-collision time 34 388
Self-propagating 294
Self-propagating shock 294
Self-similar flow 291—295 552—554 587 591 602
Semi-infinite atmosphere 344
Shear deformation, rate of 65
Shear stress 70
Shear viscosity 83 100—101 115 117—126
Shear viscosity, Evaluation of 117—126
Shear viscosity, Radiation 461—467
Shock dispersal, By material relaxation processes 253
Shock dispersal, By radiation 563 577—579 597
Shock, Ablation-driven 618—624
Shock, Accretion 603—607 610
Shock, Break-out 294
Shock, Conducting 244—250
Shock, Conduction precursor in 257
Shock, Conservation laws 231—232
Shock, Converging spherical 621
Shock, Critical 570
Shock, Critical strength 248
Shock, Detection 273 591
Shock, Development 227—230 273—274
Shock, Dispersion by radiation 563 577—579 597
Shock, Dispersion by relaxation processes 253
Shock, Electron isothermal 257
Shock, Enthalpy jump in 253
Shock, Entropy jump in 247—248
Shock, fitting 273 287 591
Shock, Formation distance 261
Shock, Frame 230—232 559
Shock, Heat-conducting 244—250
Shock, Heating 259—266 587 591—596
Shock, In exponential atmosphere 293—295
Shock, In gaseous nebulae 582
Shock, In ionized hydrogen 569—570
Shock, In isothermal material 582—583 588
Shock, In stellar wind 295—301 627—645
Shock, Isothermal 249 571
Shock, Jump relations 232—233 234—236 239 240 587
Shock, Non — LTE 607—611
| Shock, Nonequilibrium effects in 563—573
Shock, Numerical simulation of 266—288 288 291 591—611
Shock, Periodic 288—291
Shock, Propagation 259—266 288—295 585-611
Shock, Pulse 263—264
Shock, Radiating 557—611
Shock, Radiation precursor in 562—563 565 570—571 584
Shock, Radiation pressure in 579—582
Shock, Rankine Hugoniot relations 232 240 273 275 287 301 558—559
Shock, Relativistic 239—241
Shock, Relaxation zones 583 585
Shock, Similarity solution 586—591
Shock, stability 239
Shock, Steady 230—241 557—585
Shock, Strength 235—236
Shock, structure 241—259 562—563 565-585
Shock, Subcritical 565—570 576
Shock, Supercritical 570—573
Shock, Tail 253 566—567 571—573
Shock, Temperature overshoot in 253 272 276 572 576—577
Shock, Venting 294
Shock, Viscous 242—244 597
Shock, weak 244—248 259—266 290 585-586
Signature of metric 133
Similarity paramlers 93—96 99
Similarity solution 265 291—295 552—554 557 587—591 602
Simple waves 228
Singular point 636
Singular point, Locus of 636
Slowness surface 194
snapshot 343 490 503
Sobolev, Approximation 643
Sobolev, Force law 645
Sobolev, Theory 633
Solar, Atmosphere 193—194 201 217—226
Solar, Chromosphere 218 264—265 586 591 596
Solar, Chromospheric cavity 220
Solar, Chromospheric netw'ork 596
Solar, Corona 218 295—296 303
Solar, Flare 293
Solar, Photosphere 217 529
Solar, Plage 596
Solar, Temperature minimum 218 592
Solar, Thermal responses of atmosphere 519 521
Solar, Transition region 218
Solar, Wind 218 295—296 301—303
Solid angle 311
Sonine polynomials 118 120
Sound 171—173 181—182 320 322 324 525—526 534
Sound speed (see Speed of sound)
Sound, Speed of sound Adiabatic 171—173 181—182 228 525 534
Sound, Speed of sound In ionizing gas 172
Sound, Speed of sound In ionizing gas plus thermal radiation 324
Sound, Speed of sound In perfect gas plus thermal radiation 322
Sound, Speed of sound In pure thermal radiation 320
Sound, Speed of sound In radiating fluid 322 324 525—526 534
Sound, Speed of sound In relativistic fluid 172—173
Sound, Speed of sound In solar atmosphere 182
Sound, Speed of sound, Isothermal 182 526 297
Source function 330 337 397 400
Source function, Archetype 336—337
Source function, Collision domination 398
Source function, Discretized 372
Source function, Frequency-independent 330
Source function, Line 330 337 397 400
Source function, Mixed domination 398
Source function, Photoionization domination 398
Source function, Two-level atom 396—402
Space, absolute 129
Spacelike interval 134
Spacelike signature of metric 133
Spacetime 129—130
Spacetime interval 133
Spacetime rotation 138
Spacetime volume element 133
Spacetime volume element, Invariance of 134
Specific enthalpy 6
Specific enthalpy, Ionizing gas 51
Specific enthalpy, Nonequilibrium gas 395
Specific enthalpy, Perfect gas 9 26
Specific enthalpy, Perfect gas plus thermal radiation 321
Specific enthalpy, Radiating fluid 469 471
Specific enthalpy, Relativistic 148
Specific entropy 7—8 45
Specific entropy, From partition function 45
Specific entropy, Gas with internal excitation 47
Specific entropy, Ionizing gas 50—53
Specific entropy, Perfect gas 9—10 27 45 47
Specific entropy, Perfect gas plus thermal radiation 320 321
Specific entropy, Translational 45
Specific heat 186—187
Specific heat, constant pressure 4 27 44 47 52 186 187
Specific heat, constant volume 4 27 44 47 51 186 187
Specific heat, Gas with internal excitation 46—47
Specific heat, Ionizing gas plus thermal radiation 323
Specific heat, Perfect gas 27 44
Specific heat, Perfect gas plus thermal radiation 321
Specific heat, Ratio of in ionizing gas 52
Specific heat, Ratio of in perfect gas 9—10 27 44 47
Specific intensity 311
Specific intensity, Emergent 346
Specific intensity, In thermal equilibrium 318
Specific intensity, Lorentz transformation of 413—414
Specific intensity, Relation to photon distribution function 312
Specific intensity, Relation to photon number density 311
Specific internal energy 3
Specific internal energy, Gas with internal excitation 46
Specific internal energy, Ionizing gas 50—51
Specific internal energy, Ionizing gas plus thermal radiation 322
Specific internal energy, Nonequilibrium gas 395
Specific internal energy, Perfect gas 9 26 46 106
Specific internal energy, Perfect gas plus thermal radiation 320
Specific internal energy, Radiating fluid 468
Specific internal energy, Relativistic 159
Specific volume 3
Spectral profile, Radiation energy 473—476 482 484 492 494 496
Spectral profile, Radiation flux 482 484 492 494
Spectral radius 271
Spectrum line, Collision dominated 398
Spectrum line, Mixed domination 398
Spectrum line, Photoionization dominated 398
Speed, Average Maxwellian 26
Speed, Critical 297
Speed, Group 175—177 193—197
Speed, Most probable Maxwellian 25
Speed, Phase 174 181 183—184 191—195
Speed, Phase trace 174
Speed, Root-mean-square — Maxwellian 26
Speed, Shock 294
Speed, Signal 479
Spherical, Envelope 344
Spherical, Shell 344
Spherical, Shock 291—293
Spherical, Transfer equation 335 378—386
Spherical, wave 174—175 355
Spherically factor 379 482
Sphericity factor (see Sphericality factor)
Spin, electron 48
Spitzer — Harm conductivity 125 302
Spontaneous emission 329 332
Stability, absolute 645
Stability, Analysis, von Neumann 486
Stability, Drift 549 645
Stability, numerical 269—273
Stability, Of radiatively-driven wind 644 645
Stability, Shock 239
Stability, thermal 513 608
standing waves 193 207—208 290
Star, A-type 642
Star, B-type 608 621—622
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