05125nam 2200589 a 450 991087655130332120200520144314.01-280-55957-897866105595723-527-63502-53-527-60312-3(CKB)1000000000377473(EBL)822709(OCoLC)768732530(SSID)ssj0000306029(PQKBManifestationID)11238497(PQKBTitleCode)TC0000306029(PQKBWorkID)10294765(PQKB)10159547(MiAaPQ)EBC822709(EXLCZ)99100000000037747320011218d2001 uy 0engur|n|---|||||txtccrThe physics of Alfven waves /Neil F. Cramer1st ed.Berlin ;New York Wiley-VCHc20011 online resource (314 p.)Description based upon print version of record.3-527-40293-4 Includes bibliographical references (p. [273]-289 and index.The Physics of Alfvén Waves; Contents; 1 Descriptions of Magnetized Plasmas; 1.1 Introduction; 1.2 The Multi-Fluid Equations; 1.3 The Magnetohydrodynamic Model; 1.4 The Hall-MHD Model; 1.5 Fourier Transforms; 1.6 The Kinetic Theory; 2 Waves in Uniform Plasmas; 2.1 Introduction; 2.2 Waves with the MHD Model; 2.2.1 The Alfvén Mode; 2.2.2 The Fast and Slow Magnetoacoustic Modes; 2.3 The Hall-MHD Model; 2.3.1 Cold Plasma; 2.3.2 Warm Plasma; 2.4 Cold Collisionless Plasmas; 2.5 Collisional Damping; 2.5.1 Low Frequency; 2.5.2 Hall Effects; 2.6 Multiple Ion Species; 2.7 Kinetic Theory of Waves2.7.1 Parallel Propagation2.7.2 Low Plasma Beta; 2.7.3 High Plasma Beta; 2.8 Kinetic Alfvén Wave and Inertial Alfvén Wave; 2.8.1 Fluid Theory; 2.8.2 Parallel Electron Temperature Effects; 2.8.3 Two-Potential Theory; 2.8.4 Kinetic Theory; 2.8.5 Localized Alfvén Waves; 3 Waves in Nonuniform Plasmas; 3.1 Introduction; 3.2 Stratified Plasmas; 3.2.1 Ideal MHD; 3.2.2 Hall MHD; 3.2.3 Multi-Ion Plasmas; 3.2.4 Effects of Collisions; 3.3 Waves in Smooth Nonuniformities; 3.3.1 Ideal MHD; 3.3.2 Cold Plasma; 3.4 Alfvén Resonance Absorption; 3.4.1 Narrow Interfaces; 3.4.2 Analytic Derivation4 Surface Waves4.1 Introduction; 4.2 Surface Waves at Density Jumps; 4.2.1 Cold Plasma; 4.2.2 Low-Frequency Surface Waves; 4.3 Finite Ion Cyclotron Frequency Effects; 4.3.1 Surface Wave Frequency; 4.3.2 Resonance Damping; 4.4 Multiple Ion Species; 4.4.1 Surface Wave Solutions; 4.4.2 Resonance Damping; 4.5 Ideal MHD; 4.5.1 Dispersion Relation; 4.5.2 Resonance Damping; 4.6 Magnetic Field Rotation; 4.6.1 Ideal MHD; 4.6.2 Cyclotron Effects; 4.7 Radiative and Collisional Damping; 4.7.1 Radiative Damping; 4.7.2 Collisional Damping; 4.8 Kinetic Theory; 5 Instabilities and Nonlinear Waves5.1 Introduction5.2 Instabilities; 5.2.1 Macroinstabilities; 5.2.2 Microinstabilities; 5.3 Acceleration of Charged Particles; 5.4 Nonlinear Waves; 5.4.1 Wave Equations; 5.4.2 Low Frequency; 5.4.3 Higher Frequency; 5.4.4 Oblique Propagation; 5.5 Parametric and Modulational Instabilities; 5.5.1 Excitation by a Magnetoacoustic Pump; 5.5.2 Instability of Alfvén waves; 5.6 Nonlinear Kinetic and Inertial Alfvén Waves; 5.7 Nonlinear Surface Waves; 5.7.1 Nonlinear Surface Waves with Hall Dispersion; 5.7.2 Surface Alfvén Wave Solitons; 6 Laboratory Plasmas; 6.1 Introduction6.2 Modes of Bounded Plasmas6.2.1 Resistive Plasmas; 6.3 Cylindrical Geometry; 6.3.1 Uniform Plasma; 6.3.2 Bounded Plasma; 6.3.3 Nonideal Effects; 6.4 Nonuniform Plasmas; 6.5 Effects of Current; 6.6 Discrete Alfvén Waves; 6.6.1 Slab Plasma; 6.6.2 Cylindrical Plasma; 6.7 Toroidal Alfvén Eigenmodes; 6.8 Current Drive; 6.9 Localized Alfvén Waves; 7 Space and Solar Plasmas; 7.1 Introduction; 7.2 The Magnetosphere; 7.2.1 Micropulsations; 7.2.2 Kinetic and Inertial Alfvén Waves; 7.3 Solar and Stellar Winds; 7.3.1 Turbulent Waves in the Solar Wind; 7.3.2 Wind Acceleration; 7.4 Dusty Space Plasmas7.5 Cometary PlasmasLow-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 ""Alfvén 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 Alfvén waves and magneto-acoustic waves, in the context of laboratory, spaMagnetohydrodynamic wavesMagnetohydrodynamic waves.538/.6Cramer Neil F1758055MiAaPQMiAaPQMiAaPQBOOK9910876551303321The physics of Alfven waves4196123UNINA