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Cramer N.F. — The Physics of Alfvén Waves
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Название: The Physics of Alfvén WavesАвтор: Cramer N.F. Аннотация: Low-frequency wave modes of magnetized inhomogeneous plasmas have been subject to intense study in the last decade because they play important roles in the transport of energy in the plasmas. The "Alfvn wave heating" scheme has been investigated as a supplementary heating scheme for fusion plasma devices, and it has been invoked as a model of the heating of the solar and stellar coronae. This book covers the latest research into the properties and applications of low-frequency wave modes in magnetized plasmas, the Alfvn waves and magneto-acoustic waves, in the context of laboratory, space and astrophysical plasmas. In particular, non-ideal effects on the dispersion relation and absorption properties of linear and non-linear waves are included, such as ion-cyclotron effects, friction between the ionized plasma and a background gas of neutral atoms, and the interaction of the plasma with dust particles. The book also surveys the theory of Alfvn and magnetoacoustic waves in inhomogeneous plasmas, as occur in realistic laboratory, space and astrophysical plasmas, with resulting localized wave modes such as surface waves. Waves are considered under a variety of plasma conditions, ranging from cold cosmic plasmas, to hot laboratory and solar plasmas, to the relativistic plasmas around pulsars.
Язык: Рубрика: Физика /Статус предметного указателя: Готов указатель с номерами страниц ed2k: ed2k stats Год издания: 2001Количество страниц: 298Добавлена в каталог: 19.03.2006Операции: Положить на полку |
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Предметный указатель
KdV equation see "Korteweg — de Vries equation" Kinetic Alfven wave 52—63 73 90 127 129 Kinetic Alfven wave in cylindrical plasma 180 Kinetic Alfven wave in solar corona 231 Kinetic Alfven wave in the magnetosphere 211 Kinetic Alfven wave, fluid theory 53—57 Kinetic Alfven wave, kinetic theory 60—61 Kinetic Alfven wave, nonlinear 161 Kinetic Alfven wave, temperature effects 57—58 71 Kinetic Alfven wave, two-potential theory 58—60 Kinetic theory of waves 8—9 37—52 269—272 Kink wave 185 233 Korteweg — de Vries equation 142 161 162 Laboratory plasmas 167—208 Landau contour integration 38 Landau damping see "Damping" Langmuir wave in pair plasmas 263 267 Langmuir — Alfven wave in pair plasmas 263 Larmor radius 40 53 Larmor radius, electron 40 44 Larmor radius, ion 40 44 46 49 Leaky waves 129 181 Local approximation 83 183 Localization, experimentally observed 62 Localization, field line 62 67 Localization, source of waves 62 Longitudinal wave 38 42 Low-beta plasma 16 40—43 54 Macroinstabilities 136—137 Magnetic beach 142 Magnetic braking 240 Magnetic compression 6 15 Magnetic confinement 53 167 Magnetic field 5 Magnetic field reconnection 116 251 Magnetic field with shear 189 Magnetic field, rotating 85 Magnetic field, shearless 188 Magnetic field, twisted 189 Magnetic field, varying 84 Magnetic flux tubes 97 111 113 167 188 232—238 Magnetic flux tubes, interaction of acoustic waves 238 Magnetic flux tubes, twisted 235—238 Magnetic force 4 Magnetic helicity 205 Magnetic loops 230 magnetic moment 46 Magnetic pressure 5 6 17 Magnetic Reynolds number 30 82 207 Magnetic surfaces 16 Magnetic tension 6 15 17 Magnetized plasmas 1—9 Magnetoacoustic wave 13 16—17 28 99 Magnetoacoustic wave in pair plasmas 263 Magnetoacoustic wave, effect of displacement current 260 Magnetoacoustic wave, fast 13 14 16 18 25 26 38 42 47 58 67 75 80 Magnetoacoustic wave, localized 84 111 Magnetoacoustic wave, slow 13 14 16 42 57 67 Magnetoacoustic wave, unstable 139 Magnetohydrodynamics see "MHD" Magnetosonic wave see "Magnetoacoustic wave" Magnetosphere 62 97 102 115 137 209-212 Magnetotail 102 119 124 144 Maxwell's equations 2 Mean free path 46 Mhd 3 MHD wave 11—17 MHD, collisional 3 MHD, ideal 3 11 66 93—95 111—115 MHD, ideal, nonuniform 84—87 MHD, model 3—6 11 66—69 MHD, resistive 3 Microinstabilities 137—141 Micropulsations 209—211 MKdV equation see "Modified Korteweg — de Vries equation" Mode conversion 52 68 71 74 76 80 90 105 133 185 Mode conversion in cylindrical plasma 188 Mode conversion of surface wave 101 126 Mode coupling 52 54 57 60 67 82 90 194 Mode coupling, geometrical 65 Mode splitting 48 Modified Korteweg — de Vries equation 142 Modulational interactions 156 Monopole magnetic field 214 Multi-fluid equation 3 Multi-fluid model 2—3 Multiple ion species 33—36 76—80 105—111 Mush heating 185 Narrow interfaces 90—95 Neutron stars 260 NLS see "Nonlinear Schrodinger equation" Nonideal effects 65 97 Nonideal effects in cylindrical plasma 180—182 Nonideal effects, collisions 69 Nonideal effects, electron inertia 69 Nonlinear MHD fluctuations 144 Nonlinear Schroedinger equation 163 164 Nonlinear waves 142—165 Nonlinear waves in collisional astrophysical plasmas 251—260 Nonlinear waves, dispersive 144 Nonlinear waves, harmonic interaction 151 163 Nonlinear waves, low-frequency 143—144 Nonlinear waves, oblique propagation 149—151 Nonlinear waves, stability of 151 156—160 Nonlocality 88 Nuclear fusion 167 Oblique propagation 40 Ohm's law 3 4 7 17 53 Ordinary mode 264 Overdamped mode 28 Pair plasmas 261 Parallel electric field in waves 29 42 46 52 211 Parallel propagation 19 23 26 34 36—39 67 Parametric coupling 152 Parametric decay 152 158 Parametric excitation 151 Parametric excitation of shear Alfven waves 156 Parametric excitation of slow and fast waves 155 Parametric excitation, due to magnetoacoustic pump 152 Parametric resonance conditions 155 159 Partially ionized plasma 81 Particle pressure 5 Pedersen currents 211 Perpendicular ion cyclotron resonance 70 Perturbation techniques 92 100 111 122 180 Phase mixing 87 232 Phase modulation 148 Pick-up process 220 222 Plasma dispersion function 39 40 270 Plasma dispersion function, asymptotic form 39 41 44 270 Plasma dispersion function, relativistic 265 Plasma dispersion function, small argument expansion 45 270 Plasma frequency 8 22 78 92 Plasma half-space 90 Plasma sheet 116 Plasma, bounded 168—171 Plasma, bounded, cylindrical geometry 171—182 Plasma, bounded, rectangular slab geometry 168 Plasma, discontinuity 90 136 Plasma, nonuniform 65—96 Plasma, nonuniform, cold 88—93 Plasma, nonuniform, smooth 83—89 Plasma, stratified 66—83 Plasma, two ion species 35 37 77 Plasma, uniform 11—63 Polarization 14 Polarization current 48 Polarization ellipse 23 71 Polarization vector 9 14 23 Polarization, circular 19 23 26 34 38 46 103 119 143 179 Polarization, elliptical 56 119 151 Polarization, linear 23 26 35 50 71 Pole in the complex plane 38 92 93 95 101 114 122 133 Ponderomotive force 145 158 161 162 Potential functions 58 Poynting flux 63 Poynting vector 9 17 Pressure 4 Pressure balance 84 111 233 Pressure, anisotropic 138 Pressure, electron 5 40 57 Pressure, ion 5 40 46 74 Pressure, partial 3 Pseudo potential 148 161 196 Pulsars 260 Pulsations, magnetospheric 102 Pulsations, Pc 102 209 Pulsations, Pi 209 Pump, Alfven wave 157 158 Pump, magnetoacoustic wave 152 Pump, standing wave 160 QEW see "Quasi-electrostatic wave" Quality factor 185 Quasi-electrostatic wave 52 54 73 173 180 Quasi-neutrality 59 Quasilinear theory 221 268 Radiation pattern 62 Reflection and transmission coefficients 91 Reflection and transmission of waves 90—95 Refractive index 22 23 36 58 Relativistic plasma emission 267 Relativistic plasmas 265—266 Relaxation time 2 Resistive modes in bounded plasma 169—171 Resistive tearing modes 169 resistivity 3 7 27 82 Resistivity, anisotropic 32 Resistivity, parallel 33 Resistivity, perpendicular 33 Resonance 34 36 47 68 92 106 Resonance absorption 8 65 80 89—96 Resonance absorption of radio waves 92 Resonance absorption, analytic derivation 95—96 115 Resonance absorption, nonlinear effects 161 Resonance heating 78 Safety factor for Tokamak 188 Sagdeev potential see "Pseudo potential" Sausage mode 233 Scattering of waves 141 Secondaiy ions 34 77 79 106 142 SEW see "Surface electrostatic wave" Shockwave 52 141 259 Short perpendicular wavelength mode 52 74 82 93 105 126 133 Side-band daughter waves 152 157 Singularity in wave equation 68 89 92 190 Singularity of current density 257 Singularity of fields 93 Singularity of wavenumber 68 73 87 95 114 Singularity, removal by collisions 81 Singularity, removal by nonideal effects 69 Singularity, removal by resistivity 82 SKAW see "Solitary kinetic Alfven wave" Skin depth 30 63 Skin depth, electron collisionless 54 Solar acoustic wave 230 Solar coronal heating 7 97 131 230—232 Solar photosphere 113 Solar wind 44 102 115 142 213—216 Solar wind, mass loading of 220 Solitary kinetic Alfven wave 161 212 Solitons, bright 165 Solitons, compressive 161 Solitons, dark 165 Solitons, envelope 148 Solitons, Hi and Lo 149 Solitons, IAW and KAW 161 212 Solitons, Langmuir 147 Solitons, rarefactive 161 Solitons, surface Alfven wave 164—165 Sound speed 4 5 53 Soundwave 17 41 56 75 Space and solar plasmas 209—238 Spatial dispersion 9 88 Spectrum of dust grain sizes 219 245 Spectrum of waves 213 Spectrum, continuous Alfven wave 86 87 90 169 Spectrum, discrete 167 176 Spectrum, eigenmode 167 Spectrum, resistive 170 Spikes in electric field 212 standing waves 71 Star formation 239 Stellar wind 214 240 Stellarators 167 Stop-band 73 109 122 Stretched coordinates 145 Strong ion coupling approximation 253 Surface electrostatic wave 74 Surface wave 84 97—133 Surface wave in cylindrical plasma 174 177 192 Surface wave in dusty plasma 220 Surface wave in incompressible plasma 113 Surface wave in rotated magnetic field 115—126 Surface wave in rotated magnetic field, fast and slow 122 Surface wave in solar corona 231 Surface wave on density jumps 98—102 Surface wave, cold plasma 99—101 Surface wave, collisional damping 129—130 Surface wave, collisional damping, ion-neutral 129 Surface wave, collisional damping, resistive and viscous 130 Surface wave, collisionless damping 131 Surface wave, cyclotron effects in rotated magnetic field 124—126 Surface wave, damping rate 102 Surface wave, dispersion equation 100 Surface wave, dispersion relation 101 Surface wave, eigenmodes 97 Surface wave, fast 103 Surface wave, frequency 102—104 Surface wave, ideal MHD 111—115 Surface wave, ideal MHD in rotated magnetic field 116—124 Surface wave, ideal MHD, slow 112 Surface wave, image plasma theory 131 Surface wave, ion cyclotron 102—105 Surface wave, ion-ion hybrid 105 Surface wave, ion-ion hybrid, lower cyclotron 106 Surface wave, ion-ion hybrid, upper cyclotron 107 Surface wave, kinetic theory 131—133 Surface wave, low-frequency 101—102 Surface wave, multiple ion species 105—111 Surface wave, nonlinear 162—165 Surface wave, nonlinear Hall dispersive 162—164 Surface wave, radiative damping 127—129 131 Surface wave, resonance absorption 101 Surface wave, resonance damping 101 104—105 109—111 114—115 122—124 Surface wave, transition to body wave 178 Surface wave, unstable 137 Surface, plasma-vacuum 99 100 102 112 TAE see "Toroidal Alfven eigenmode" Temperature 2 5 Temperature, anisotropic 38 138 Temperature, electron 40 Temperature, ion 40 Temperature, isotropic 39 40 Thermal velocity 3 39 Time-scales 30 Tokamaks 102 167 188 200 Toroidal Alfven eigenmode 201—204 Toroidal plasma 188 Toroidicity effects 201 Torsional wave 16
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