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Kravens T.E. — Physic of Solar System Plasmas

Kravens T.E. — Physic of Solar System Plasmas

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Название: Physic of Solar System Plasmas

Автор: Kravens T.E.

Аннотация:

Physics of Solar System Plasmas provides a comprehensive introduction to the plasma physics and magnetohydrodynamics that are needed to study the solar wind and magnetosphere. The text includes a broad introduction to plasma physics, including important discussions of kinetic theory, single particle motion, magnetohydrodynamics, geomagnetically trapped energetic particles and the physics of magnetic reconnection. This leads into a thorough description of the Sun and the solar wind, and, finally, the author addresses magnetospheric physics. Among the topics covered here are magnetospheric morphology, bow shocks, magnetospheric convection and electrical currents, substorms, ionospheric physics, magnetosphere-ionosphere coupling, auroral physics and the interaction of the solar wind with the planets. Problem sets at the end of each chapter make this a useful text for advanced undergraduate students in astrophysics, geophysics, or atmospheric sciences. Graduate students and researchers will also find it a valuable source of information.

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Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1997

Количество страниц: 477

Добавлена в каталог: 17.03.2008

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

Предметный указатель

$D_{st}$ index of geomagnetic activity      76
$E \times B$ drift      49 381 383 443
Adiabatic invariants      54—61
Adiabatic invariants, first      54—57
Adiabatic invariants, second (or longitudinal)      60 64
Adiabatic invariants, third      65
Adiabatic temperature gradient (or lapse rate)      166—167
Alfven waves      128—133
Ambipolar diffusion      118—121 293—294
Ambipolar electric field      99—100
Ampere's law      34 109 278 464
Anomalous cosmic rays      261
Anomalous resistivity      143 153—154 356
Archimede's law      156
Atmosphere, neutral      285—286 see
Aurora      7 360 398 426—432
Aurora, electrical currents      428—431
Aurora, electron spectrum      431
Aurora, emissions      432
Auroral oval      347 426—427
Axford, W.I.      348
Bernoulli's equation      32 123 194—195
Betatron acceleration      56—57 453
Biermann, l.      4
Birkeland currents      see "Field-aligned currents"
Birkeland, Kristian      4
Blackbody radiation      176—177
Boltzmann equation      9 11—13
Bounce period      60 64
Bow shock      6 314 329—334
Brunt — Vaeisaelae frequency      169—170
Carrington, Richard      3—4
Chapman, Sydney      5
Charge density      34 102
Chemistry      see "Collisions"
Chromosphere      173
Cleft      see "Cusp"
Collision frequency      27—28 295
Collision less Boltzmann equation      see "Vlasov equation"
Collisions      26—28
Collisions, charge-transfer      28 67
Collisions, chemical      22 291—293 296—302
Collisions, Coulomb (electron-electron, electron-ion)      28 68
Collisions, energy transfer      33—34
Collisions, ion-neutral      27 120 307 326
Collisions, ionizing      177—179 266 432
Collisions, momentum transfer      27
Collisions, nuclear      161—162
Comets, bow shock      314
Comets, coma      302
Comets, diamagnetic cavity      314 325
Comets, ionosphere      302—303
Comets, nucleus      263 301—302
Comets, solar wind interaction with      273 314—327
Comets, tails of      302 314 323
Contact discontinuity      137
Continuity equation      19—22
Continuity equation, charge      102
Continuity equation, single-fluid      102 196
Continuity equation, two-fluid      90
Convection electric field      350 369 415—416 424—425 438
Convection zone, solar      160 165—168
Convection, plasma      see "Ionosphere and magnetosphere"
Convective derivative      13—14
Corona, coronal holes      181 240
Corona, density      210—211
Corona, flares      186—188
Corona, force/momentum balance in      210—213
Corona, heat conduction in      193—194
Corona, magnetic field in      213—220
Corona, mass ejections from      184 186—188
Corona, potential field model of      213—220
Corona, properties      179—181
Corona, solar      3—4 173 191—194
Corona, temperatures in      179—180
Corona, x-ray image of      4
Coronal mass ejections      184 186—188 243—245
Corotating interaction regions (CIR)      242 260
Corotation      390—394 438—439 446
Corotation electric field      391 438—439
Cosmic rays, anomalous      261
Cosmic rays, galactic      255 258—261
Cosmic rays, solar      261—263
Cross-L shell diffusion      85—87 452—453
Current      see "Electrical current"
Current density      101 306 371—372 381 408 471
Current sheet/layer      114 278 466
Current sheet/layer, heliospheric      241
Curvature drift      53—54 64—65
Cusp      344—345 397
Cyclotron frequency      see "Gyrofrequency"
Cyclotron radius      see "Gyrorodius"
Debye length      37—38 180
Debye shielding      35—39
density      11 98 101
Diffusion time      80 87 256
Diffusion, ambipolur      118—121 157 243—244
Diffusion, energy      80—81 319
Diffusion, ion      337
Diffusion, magnetic      104 107 191 313
Diffusion, pitch-angle      69 80—85 255—258 318—319
Diffusive separation      286—287
Dipole magnetic field      61—63 275—276
Dipole magnetic field, charged particle motion in      63—65
Dipole magnetic field, Earth, of the      61—63
Dipole magnetic field, image      279—280
Dipole magnetic field, planets, of the      271 280—282
Dipole magnetic field, solar      217—219
Dispersion relation, acoustic/buoyancy waves      170
Dispersion relation, Alfven waves      130—131
Dispersion relation, electromagnetic waves      93 154
Dispersion relation, magnetosonic waves      133 158
Dispersion relation, plasma/Langmuir waves      93—98
Dispersion relation, sound/ion-acoustic waves      126
Distribution function      10—11 257
Distribution function, electrons in solar wind      250
Distribution function, gyrotropic      79
Distribution function, isotropic      59
Distribution function, loss cone      60 66
Distribution function, Maxwell — Boltzmann      12 14—17 40
Distribution function, ring-beam      317
Distribution function, shell      318
Dungey, james      348
Dynamic pressure      121 211 274 312
Dynamo theory      171—173
Election temperature      34 37 41—42 249—251 295 312 401
Electrical conductivity      103—104 303—309
Electrical conductivity, Hall      307—309
Electrical conductivity, parallel      307
Electrical conductivity, Pederson      307—309 372 417 446
Electrical currents, auroral      428—430
Electrical currents, cross-tail      345 402—403
Electrical currents, diamagnetic      114 411
Electrical currents, field-aligned      304—306 371—372
Electrical currents, Hall      304—306 372 380—381
Electrical currents, ionosphere-magnetosphere coupling      401—415
Electrical currents, ionospheric      114—115 412—413 417 422—423
Electrical currents, magnetopause      275—276 402—403
Electrical currents, Pederson      372 380—381 417
Electrical currents, Region 1 system      403—408
Electrical currents, Region 2 system      408—416
Electrical currents, ring      74—75 448—451
Electron density      36 90 93—94 101 113—115 249—251 294 312 397 401
Electrostatic potential      see "Potential"
Energy conservation for electromagnetism      470—472
energy equation      29—34
Energy equation, collision terms/cooling      30—32 338
Energy equation, local balance      33—34
Energy equation, MHD      121—123
Energy equation, polytropic      32

Enthalpy      30
Equation of state      29 162
Exospheric temperature      286
Faraday's law      34 56 104 423—425 464—465
Fermi acceleration      61 319
Field-aligned currents      347 371—373 408 416—418 429—430
Fluid conservation equations      see "Fluid theory"
Fluid theory      9 19—35 90—91 101
Flux ropes      116—117 311
Flux, frozen-in magnetic      104—106
Galactic cosmic rays      258—261
Gas flow, steady, one-dimensional      195—203
Gauss's law      34—35 93—94 464—465
Generalized ohm's law      98—104 303—306
Geomagnetic field      6 61—62
Geomagnetic indices      435
Geomagnetic storms      76—77 435
Geopause      397—401
Gradient B drift      51—53 64—65
Gravity waves, internal      169—170
Group velocity/speed      93 98 470
Guiding center      51
Gyrofrequency      44—46 64 81 305
Gyroradius      46 153 356 367—368
Heat conduction equation      33 41 193
Heat flux      19 31 193
Heliopause      253—254
Helioscismology      168—171
Heliosphere      252—255
Heliospheric current sheet      236—241
Hydrostatic balance      111—113 162 286 294
Incompressible fluid      22 353—354
Induction equation, magnetic      104—105 124 171
Induction equation, rotating reference frame, for      221—223
Internal energy      29—30
Interplanetary magnetic field      209—228
Interplanetary magnetic field, magnitude of      228
Interplanetary magnetic field, MHD waves in      246—248
Interplanetary magnetic field, Parker spiral      225—228
Interplanetary magnetic field, source surface for      213
Interplanetary magnetic field, turbulence in      246—249
Interstellar medium, very local (VLISM)      252—255
Invariant latitude      62—63
Io plasma torus      440—442 446—449
Ion-acoustic waves      see "Sound waves"
Ion-neutral collisions      27—28 67 120
Ion/proton temperature      234 294—295 335 338 401 442
Ionization, collisional      see "Collisions"
Ionization, photoionization      177—179 289—292
Ionopause      114—115 310
Ionosphere      7 284—309
Ionosphere of Jupiter      299—300 445—446
Ionosphere of Titan      301
Ionosphere of Venus      298—299
Ionosphere, ambipolar diffusion in      118—121 293—295 337
Ionosphere, Chapman layer      291
Ionosphere, cometary      301—302
Ionosphere, conservation equations for      292—296
Ionosphere, convection in polar cap      387—388
Ionosphere, electrical conductivity in      303—309
Ionosphere, formation of      289—292
Ionosphere, photochemical equilibrium for      293
Ionosphere, terrestrial      112—113 296—298
Joselyn, J.      436
Jovian magnetosphere, azimuthal force balance      444—445
Jovian magnetosphere, composition      440—441
Jovian magnetosphere, corotarion of      446—447
Jovian magnetosphere, dynamics of      443—444
Jovian magnetosphere, electrical currents in      445—449
Jovian magnetosphere, magnetopause of      282—284
Jovian magnetosphere, plasma transport in      452—453
Jovian magnetosphere, plasmasheet      283 449—452
Kinetic theory      9—35
Krook collision term      12
L-shell      62—63
L-shell for outer planets      439
Langmuir oscillations/waves      see "Plasma oscillations/waves"
Laplace's equation      214—215 468
Larmor frequency      see "Gyrofrequency"
Larnior radius      see "Gyrogradius"
Laval nozzle      198—203
Lorentz force      1—2 12 24 43 464
Lunar wake      327—329
Mach number, Alvenic      131—132 355 358
Mach number, magneto sonic      134
Mach number, sonic      127—128
Magnetic barrier      310—311 314 325
Magnetic bottle      59—61
Magnetic convection-diffusion      104—108
Magnetic flux ropes      see "Flux ropes"
Magnetic mirror      57—58 63
magnetic moment      47—49 56 58
Magnetic pressure      109—110 113—115 183 210—211 254 275 312
Magnetic reconnection/merging      143—154
Magnetic reconnection/merging, anomalous resistivity in      143 153—154 356
Magnetic reconnection/merging, diffusion region for      148 150—153
Magnetic reconnection/merging, energy balance for      149—151
Magnetic reconnection/merging, flux transfer events from      364—366
Magnetic reconnection/merging, magnetotail, in      359
Magnetic reconnection/merging, Petschek — Sonnerup model of      149 355
Magnetic reconnection/merging, rate of      149 353 356
Magnetic reconnection/merging, Sweet — Parker model of      148 152
Magnetic reconnection/merging, terrestrial magnetopause, at      350—365
Magnetic reconnection/merging, transient      364—365
Magnetic reconnection/merging, x-line in      148—154 361
Magnetic Reynolds number      105 146 355
Magnetic tension/curvature force      110
Magnetization current      74
Magnetohydrodynamics      see "MHD"
Magnetopause      6 273—284
Magnetopause, Earth, location of      273—280
Magnetopause, Mercury, location of      280—282
Magnetopause, outer planets, location of      282—284
Magnetopause, reconnection at      350—365
Magnetopause, thickness and structure      365—369
Magnetosheath      6 335—336
Magnetosonic waves      133—134
Magnetosphere      5—7 343—348
Magnetosphere, closed model of      348
Magnetosphere, convection in      383—390
Magnetosphere, coupling to ionosphere      401—415
Magnetosphere, electrical currents in      401—418
Magnetosphere, energy input into      357—364
Magnetosphere, Jupiter, of      440—453
Magnetosphere, MHD models of      433—434
Magnetosphere, morphology of      344—348
Magnetosphere, open model of      346—356 384—390
Magnetosphere, outer planets, of      436—440
Magnetosphere, plasma parameters, typical      401
Magnetosphere, plasma sources for      396—401
Magnetosphere, substorms in      418—422
Magnetospheric electric field      see "Convection electric field"
Magnetotail      6 345—347 422—424
mass density      101 353—354
Mass-loading      25 319—321
Maxwell — Boltzmann distribution function      see "Maxwellian distribution function"
Maxwell's equations      34 464—466
Maxwellian distribution function      12 15—17 40
Maxwellian distribution function, equilibrium form      16—17 36
Mcllwaine L-shell      see "L-shell"
MHD equations      108—109 370—371
MHD, discontinuities      135—141
MHD, electrical current description of      369—383
MHD, energy balance in      382—383
MHD, energy relation      121—123
MHD, field-aligned currents in      371—373
MHD, force-free equilibrium      116
MHD, momentum/stress balance      110 121 373—383
MHD, numerical models of      424 433—434
MHD, reconnection in      143—154

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