Verfügbarkeit: Plasma kinetic theory

Plasma kinetic theory:

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1. Verfasser:	Swanson, Donald G. 1935- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, Fla. CRC Press 2008
Schriftenreihe:	Series in plasma physics
Schlagworte:	Plasma dynamics Kinetic theory of gases Kinetische Theorie Plasmadynamik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XIII, 323 S.
ISBN:	9781420075809

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adam_text	Contents PREFACE xi AUTHOR xiii INTRODUCTION 1 1.1 Overview ............................. 1 1.2 Plasma frequency ......................... 2 1.3 Debye length ........................... 2 1.4 Plasma parameter ........................ 4 1.5 Distribution functions ...................... 5 1.5.1 Moments of the distribution function .......... 6 1.5.2 Magnetic pressure .................... 7 1.6 Cyclotron frequencies ....................... 7 1.7 Collisions ............................. 8 1.7.1 Binary Coulomb collisions ................ 8 1.7.2 Deflection by multiple Coulomb collisions ....... 11 1.7.3 Charge-neutral collisions ................. 13 1.7.4 Charge-exchange collisions ................ 14 1.8 Particle drifts ........................... 14 1.9 Waves ............................... 15 1.9.1 Sound waves ....................... 16 1.9.2 Electromagnetic waves .................. 16 1.9.3 Alfvén waves ....................... 17 1.9.4 Electrostatic waves .................... 18 1.9.5 Plasma waves ....................... 18 1.9.6 Bernstein waves ...................... 18 1.9.7 Wave damping ...................... 18 1.9.8 Large amplitude waves .................. 19 1.10 Plasma radiation ......................... 19 1.10.1 Bremsstrahlung...................... 19 1.10.2 Blackbody radiation ................... 20 1.10.3 Impurity radiation .................... 20 1.10.4 Cyclotron or synchrotron radiation ........... 20 1.10.5 Cherenkov radiation ................... 20 vi Plasma Kinetic Theory 2 BASIC KINETIC EQUATIONS 21 2.1 The Klimontovich equation ................... 21 2.1.1 Introduction ........................ 21 2.1.2 The density function ................... 21 2.1.3 The Klimontovich equation ............... 22 2.1.4 Kinetic equation ..................... 23 2.2 The Liouville equation ...................... 26 2.2.1 Introduction ........................ 26 2.2.2 Liouville equation — standard form .......... 27 2.3 System ensembles ......................... 28 2.3.1 BBGKY hierarchy .................... 29 2.3.2 Truncating the BBGKY hierarchy ........... 33 3 THE LENARD-BALESCU EQUATION 39 3.1 Bogolyubov s hypothesis ..................... 39 3.2 Solution via Fourier and Laplace transforms .......... 41 3.2.1 Transforming the evolution equations .......... 43 3.2.2 Inverting the operators .................. 45 3.2.3 Integrating over рг .................... 46 3.2.4 Integrating over pi .................... 48 3.2.5 Integrating over fc .................... 51 3.3 The Fokker-Planck equation ................... 52 3.4 Dynamic friction and diffusion ................. 53 3.4.1 Runaway electrons in a steady electric field ...... 54 3.4.2 Resonant wave heating .................. 58 4 THE VLASOV-MAXWELL EQUATIONS 69 4.1 Electrostatic waves in an unmagnetized plasma ........ 69 4.1.1 Vlasov method ...................... 70 4.1.2 Landau solution ...................... 73 4.2 Effects of collisions on Landau damping ............ 79 4.3 The Debye potential ....................... 82 4.3.1 Potential of a stationary test charge .......... 82 4.3.2 Average potential of thermal test charges ....... 84 5 WAVES IN A MAGNETIZED HOT PLASMA 89 5.1 The hot plasma dielectric tensor ................ 89 5.1.1 The evolution of the distribution function ....... 89 5.1.2 Integrating along the unperturbed orbits ........ 91 5.1.3 General fo(vj_,vz) .................... 93 5.1.4 Maxwellian distributions ................. 96 5.1.5 The dielectric tensor ................... 100 5.1.6 The hot plasma dispersion relation ........... 103 5.1.7 Examples of hot plasma wave effects .......... 103 5.2 Electrostatic waves ........................ 107 Table of Contents vii 5.2.1 Electrostatic dispersion relation .............107 5.2.2 Perpendicular propagation - Bernstein modes .....109 5.3 Velocity space instabilities ....................110 5.3.1 Anisotropie temperature .................110 5.3.2 Bump-on-the-tail instability ...............112 5.4 Conservation of energy and power flow .............114 5.4.1 Poynting s theorem for kinetic waves ..........114 5.4.2 Group velocity and kinetic flux .............116 5.5 Collisional effects .........................119 5.5.1 Collisions via the Krook model .............119 5.5.2 Collisions via a Fokker-Planck model ..........119 5.6 Relativistic plasma effects ....................120 5.6.1 The relativistic dielectric tensor .............121 5.6.2 The relativistic dielectric tensor without sums .....124 5.6.3 The weakly relativistic dielectric tensor ........125 5.6.4 Moderately relativistic expressions ...........128 5.6.5 Exact expressions with пц = 0..............130 5.6.6 The relativistic X-wave .................134 6 MOMENT EQUATIONS AND FLUID PLASMAS 137 6.1 Moments of the distribution function ..............138 6.1.1 The simple moment equations ..............138 6.1.2 Plasma oscillations ....................140 6.1.3 The kinetic moment equations .............143 6.2 The fluid equations ........................146 6.3 Low frequency waves .......................147 6.3.1 The low frequency dispersion relation .........147 6.3.2 Stringer diagrams .....................150 6.4 High frequency waves .......................151 6.4.1 Warm plasma dispersion relation ............151 6.4.2 Electrostatic dispersion relation .............157 6.4.3 Parallel and perpendicular propagation .........162 6.4.4 Summary of fluid waves .................162 7 TRANSPORT IN A NONUNIFORM GAS 165 7.1 Boltzmann equation .......................165 7.2 Collision symmetries .......................167 7.3 Collision theorems ........................170 7.4 The equilibrium state ......................171 7.5 The mean free time theory ....................176 7.6 The formal theory of kinetic processes .............181 7.7 Results of the variational procedure ...............189 via Plasma Kinetic Theory 8 TRANSPORT IN A NONUNIFORM BINARY GAS 197 8.1 The Boltzmann equations ....................197 8.2 The equations of hydrodynamics ................198 8.3 The collision terms ........................202 8.4 The equilibrium state ......................205 8.5 The formal theory of kinetic processes .............207 8.6 The variation method ......................219 8.6.1 Definition of {G; H} ...................221 8.6.2 The Davison function ..................222 8.7 Results ...............................223 8.7.1 Viscosity ..........................223 8.7.2 Diffusion and electrical conductivity ..........225 8.7.3 Thermal conduction ...................229 9 TRANSPORT WITH A FINITE MAGNETIC FIELD 233 9.1 Boltzmann equations .......................233 9.2 The magnetohydrodynamic (MHD) equations .........234 9.3 The formal theory of kinetic processes .............236 9.4 Solutions for the electrical conductivity .............251 9.4.1 Solving for the ef ....................253 9.5 Thermal conductivity and diffusion ...............258 9.5.1 Variational results ....................258 9.5.2 The transport coefficients ................260 9.5.3 Convergence and accuracy ................262 9.6 The pressure tensor ........................262 9.6.1 Solving for G, .......................270 9.6.2 The pressure tensor elements ..............271 9.7 Summary of results ........................276 A MATHEMATICAL FUNCTIONS 283 A.I The plasma dispersion function .................283 A. 1.1 Definition of the plasma dispersion function ......283 A.I. 2 Relation to the error function for complex argument . 284 A.1.3 Relation to the Y function ................287 A. 1.4 Relation to the W function ...............287 A. 2 Relativistic plasma dispersion functions ............288 A. 2.1 Weakly relativistic dispersion function .........288 A.2.2 Generalized relativistic dispersion function .......289 A.3 Gamma Function, Γ(ζ) .....................290 A.3.1 Definition .........................290 A.3. 2 Incomplete gamma function ...............291 A. 4 Generalized hypergeometric functions ..............292 A.4.1 Hypergeometric function integrals — first type .... 292 A.4.2 Hypergeometric function integrals — second type . . . 293 A. 5 Vector identities .........................293 Table of Contents ix A. 5.1 Products of three vectors ................293 A. 5.2 Vector identities with the V operator ..........294 В COLLISION INTEGRALS 295 B.I Rutherford scattering .......................295 B.2 Collision integrals .........................299 С NOTATION AND LIST OP SYMBOLS 309 C.I Mathematical notation ......................309 C.2 List of symbols ..........................310 Bibliography 315 Index 319
adam_txt	Contents PREFACE xi AUTHOR xiii INTRODUCTION 1 1.1 Overview . 1 1.2 Plasma frequency . 2 1.3 Debye length . 2 1.4 Plasma parameter . 4 1.5 Distribution functions . 5 1.5.1 Moments of the distribution function . 6 1.5.2 Magnetic pressure . 7 1.6 Cyclotron frequencies . 7 1.7 Collisions . 8 1.7.1 Binary Coulomb collisions . 8 1.7.2 Deflection by multiple Coulomb collisions . 11 1.7.3 Charge-neutral collisions . 13 1.7.4 Charge-exchange collisions . 14 1.8 Particle drifts . 14 1.9 Waves . 15 1.9.1 Sound waves . 16 1.9.2 Electromagnetic waves . 16 1.9.3 Alfvén waves . 17 1.9.4 Electrostatic waves . 18 1.9.5 Plasma waves . 18 1.9.6 Bernstein waves . 18 1.9.7 Wave damping . 18 1.9.8 Large amplitude waves . 19 1.10 Plasma radiation . 19 1.10.1 Bremsstrahlung. 19 1.10.2 Blackbody radiation . 20 1.10.3 Impurity radiation . 20 1.10.4 Cyclotron or synchrotron radiation . 20 1.10.5 Cherenkov radiation . 20 vi Plasma Kinetic Theory 2 BASIC KINETIC EQUATIONS 21 2.1 The Klimontovich equation . 21 2.1.1 Introduction . 21 2.1.2 The density function . 21 2.1.3 The Klimontovich equation . 22 2.1.4 Kinetic equation . 23 2.2 The Liouville equation . 26 2.2.1 Introduction . 26 2.2.2 Liouville equation — standard form . 27 2.3 System ensembles . 28 2.3.1 BBGKY hierarchy . 29 2.3.2 Truncating the BBGKY hierarchy . 33 3 THE LENARD-BALESCU EQUATION 39 3.1 Bogolyubov's hypothesis . 39 3.2 Solution via Fourier and Laplace transforms . 41 3.2.1 Transforming the evolution equations . 43 3.2.2 Inverting the operators . 45 3.2.3 Integrating over рг . 46 3.2.4 Integrating over pi . 48 3.2.5 Integrating over fc . 51 3.3 The Fokker-Planck equation . 52 3.4 Dynamic friction and diffusion . 53 3.4.1 Runaway electrons in a steady electric field . 54 3.4.2 Resonant wave heating . 58 4 THE VLASOV-MAXWELL EQUATIONS 69 4.1 Electrostatic waves in an unmagnetized plasma . 69 4.1.1 Vlasov method . 70 4.1.2 Landau solution . 73 4.2 Effects of collisions on Landau damping . 79 4.3 The Debye potential . 82 4.3.1 Potential of a stationary test charge . 82 4.3.2 Average potential of thermal test charges . 84 5 WAVES IN A MAGNETIZED HOT PLASMA 89 5.1 The hot plasma dielectric tensor . 89 5.1.1 The evolution of the distribution function . 89 5.1.2 Integrating along the unperturbed orbits . 91 5.1.3 General fo(vj_,vz) . 93 5.1.4 Maxwellian distributions . 96 5.1.5 The dielectric tensor . 100 5.1.6 The hot plasma dispersion relation . 103 5.1.7 Examples of hot plasma wave effects . 103 5.2 Electrostatic waves . 107 Table of Contents vii 5.2.1 Electrostatic dispersion relation .107 5.2.2 Perpendicular propagation - Bernstein modes .109 5.3 Velocity space instabilities .110 5.3.1 Anisotropie temperature .110 5.3.2 Bump-on-the-tail instability .112 5.4 Conservation of energy and power flow .114 5.4.1 Poynting's theorem for kinetic waves .114 5.4.2 Group velocity and kinetic flux .116 5.5 Collisional effects .119 5.5.1 Collisions via the Krook model .119 5.5.2 Collisions via a Fokker-Planck model .119 5.6 Relativistic plasma effects .120 5.6.1 The relativistic dielectric tensor .121 5.6.2 The relativistic dielectric tensor without sums .124 5.6.3 The weakly relativistic dielectric tensor .125 5.6.4 Moderately relativistic expressions .128 5.6.5 Exact expressions with пц = 0.130 5.6.6 The relativistic X-wave .134 6 MOMENT EQUATIONS AND FLUID PLASMAS 137 6.1 Moments of the distribution function .138 6.1.1 The simple moment equations .138 6.1.2 Plasma oscillations .140 6.1.3 The kinetic moment equations .143 6.2 The fluid equations .146 6.3 Low frequency waves .147 6.3.1 The low frequency dispersion relation .147 6.3.2 Stringer diagrams .150 6.4 High frequency waves .151 6.4.1 Warm plasma dispersion relation .151 6.4.2 Electrostatic dispersion relation .157 6.4.3 Parallel and perpendicular propagation .162 6.4.4 Summary of fluid waves .162 7 TRANSPORT IN A NONUNIFORM GAS 165 7.1 Boltzmann equation .165 7.2 Collision symmetries .167 7.3 Collision theorems .170 7.4 The equilibrium state .171 7.5 The mean free time theory .176 7.6 The formal theory of kinetic processes .181 7.7 Results of the variational procedure .189 via Plasma Kinetic Theory 8 TRANSPORT IN A NONUNIFORM BINARY GAS 197 8.1 The Boltzmann equations .197 8.2 The equations of hydrodynamics .198 8.3 The collision terms .202 8.4 The equilibrium state .205 8.5 The formal theory of kinetic processes .207 8.6 The variation method .219 8.6.1 Definition of {G; H} .221 8.6.2 The Davison function .222 8.7 Results .223 8.7.1 Viscosity .223 8.7.2 Diffusion and electrical conductivity .225 8.7.3 Thermal conduction .229 9 TRANSPORT WITH A FINITE MAGNETIC FIELD 233 9.1 Boltzmann equations .233 9.2 The magnetohydrodynamic (MHD) equations .234 9.3 The formal theory of kinetic processes .236 9.4 Solutions for the electrical conductivity .251 9.4.1 Solving for the ef .253 9.5 Thermal conductivity and diffusion .258 9.5.1 Variational results .258 9.5.2 The transport coefficients .260 9.5.3 Convergence and accuracy .262 9.6 The pressure tensor .262 9.6.1 Solving for G, .270 9.6.2 The pressure tensor elements .271 9.7 Summary of results .276 A MATHEMATICAL FUNCTIONS 283 A.I The plasma dispersion function .283 A. 1.1 Definition of the plasma dispersion function .283 A.I. 2 Relation to the error function for complex argument . 284 A.1.3 Relation to the Y function .287 A. 1.4 Relation to the W function .287 A. 2 Relativistic plasma dispersion functions .288 A. 2.1 Weakly relativistic dispersion function .288 A.2.2 Generalized relativistic dispersion function .289 A.3 Gamma Function, Γ(ζ) .290 A.3.1 Definition .290 A.3. 2 Incomplete gamma function .291 A. 4 Generalized hypergeometric functions .292 A.4.1 Hypergeometric function integrals — first type . 292 A.4.2 Hypergeometric function integrals — second type . . . 293 A. 5 Vector identities .293 Table of Contents ix A. 5.1 Products of three vectors .293 A. 5.2 Vector identities with the V operator .294 В COLLISION INTEGRALS 295 B.I Rutherford scattering .295 B.2 Collision integrals .299 С NOTATION AND LIST OP SYMBOLS 309 C.I Mathematical notation .309 C.2 List of symbols .310 Bibliography 315 Index 319
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spelling	Swanson, Donald G. 1935- Verfasser (DE-588)124291333 aut Plasma kinetic theory D. G. Swanson Boca Raton, Fla. CRC Press 2008 XIII, 323 S. txt rdacontent n rdamedia nc rdacarrier Series in plasma physics Includes bibliographical references and index Plasma dynamics Kinetic theory of gases Kinetische Theorie (DE-588)4030669-0 gnd rswk-swf Plasmadynamik (DE-588)4123952-0 gnd rswk-swf Plasmadynamik (DE-588)4123952-0 s Kinetische Theorie (DE-588)4030669-0 s DE-604 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016663355&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Swanson, Donald G. 1935- Plasma kinetic theory Plasma dynamics Kinetic theory of gases Kinetische Theorie (DE-588)4030669-0 gnd Plasmadynamik (DE-588)4123952-0 gnd
subject_GND	(DE-588)4030669-0 (DE-588)4123952-0
title	Plasma kinetic theory
title_auth	Plasma kinetic theory
title_exact_search	Plasma kinetic theory
title_exact_search_txtP	Plasma kinetic theory
title_full	Plasma kinetic theory D. G. Swanson
title_fullStr	Plasma kinetic theory D. G. Swanson
title_full_unstemmed	Plasma kinetic theory D. G. Swanson
title_short	Plasma kinetic theory
title_sort	plasma kinetic theory
topic	Plasma dynamics Kinetic theory of gases Kinetische Theorie (DE-588)4030669-0 gnd Plasmadynamik (DE-588)4123952-0 gnd
topic_facet	Plasma dynamics Kinetic theory of gases Kinetische Theorie Plasmadynamik
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