Verfügbarkeit: Basic space plasma physics

Basic space plasma physics:

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Bibliographische Detailangaben
Hauptverfasser:	Baumjohann, Wolfgang 1950- (VerfasserIn), Treumann, Rudolf A. 1942- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New Jersey [u.a.] World Scientific 2012
Ausgabe:	Rev. ed
Schlagworte:	Plasmaphysik Astrophysik
Online-Zugang:	Klappentext Inhaltsverzeichnis
Beschreibung:	XVI, 479 S. Ill., graph. Darst.
ISBN:	9781848168947 1848168942 9781848168954 1848168950

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Datensatz im Suchindex

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adam_text	Contents Preface to the Revised Edition v Preface to the First Edition vii 1 Introduction 1 1.1 Definition of a Plasma .............................. 2 .1.1 Debye Shielding ............................. 2 .1.2 Plasma Parameter ............................. 4 1.1.3 Plasma Frequency ............................ 4 1.2 Geophysical Plasmas ............................... 6 .! Solar Wind ................................ 6 .2 Magnetosphere .............................. 7 .3 Ionosphere ................................ 9 1.3 Magnetosphenc Currents ............................. 10 1.4 Theoretical Approaches .............................. 12 References ........................................ 13 Problems ........................................ 14 2 Single Particle Motion 15 2.1 Field Equations .................................. 15 2.2 Gyration ...................................... 16 2.3 Electric Drifts ................................... 18 2.3.1 Ex В -Drift ............................... 19 2.3.2 Polarisation Drift ............................. 20 2.3.3 Electric Drift Corrections ......................... 21 2.4 Magnetic Drifts .................................. 22 2.4.1 Gradient Drift ............................... 22 2.4.2 General Force Drift ............................ 24 2.4.3 Curvature Drift .............................. 25 2.5 Adiabatic Invariants ................................ 26 2.5.1 Magnetic Moment ............................ 27 2 5 2 Magnetic Mirror ............................. 29 2.5.3 Adiabatic Heating ............................ 30 2.5.4 Longitudinal Invariant .......................... 31 2.5.5 Energy Anisotropy ............................ 32 2.5.6 Drift Invariant ............................... 33 2.5.7 Violation of Invariance .......................... 34 2.6 Concluding Remarks ............................... 34 2.6.1 Summary of Guiding Centre Drifts .................... 35 References ........................................ 36 Problems ........................................ 37 IX Contents Trapped Particles 39 3.1 Dipole Field .................................... 39 3.2 Bounce Motion .................................. 42 3.2.1 Equatorial Pitch Angle .......................... 43 3.2.2 Bounce Period .............................. 44 3.2.3 Loss Cone ................................. 45 3.3 Drift Motion .................................... 46 3.3.1 Magnetic Drift Velocity ......................... 47 3.3.2 Electric Drift ............................... 48 3.4 Sources and Sinks ................................. 49 3.4.1 Adiabatic Heating ............................ 50 3.4.2 Loss Processes .............................. 51 3.5 Radiation Belts .................................. 52 3.6 Ring Current ................................... 53 3.6.1 Magnetic Disturbance .......................... 54 3.6.2 Magnetic Storms ............................. 56 3.7 Concluding Remarks ............................... 58 References ........................................ 58 Problems ........................................ 59 Collisions and Conductivity 60 4.1 Collisions ..................................... 61 4.1.1 Partially Ionised Plasmas ......................... 61 4.1.2 Fully Ionised Plasmas .......................... 62 4.2 Plasma Conductivity ............................... 66 4.2.1 Unmagnetised Plasma .......................... 67 4.2.2 Magnetised Plasma ............................ 67 4.3 Ionosphere Formation: Chapman Layer ..................... 71 4.3.1 Solar Ultraviolet Ionisation........................ 72 4.3.2 Ionisation by Energetic Particles ..................... 74 4.3.3 Recombination and Attachment ..................... 77 4.3.4 Ionospheric Layers ............................ 78 4.4 Ionospheric Conductivity ............................. 79 4.4.1 Conductivity Tensor ........................... 80 4.4.2 Conductivity Profile ........................... 81 4.5 Ionospheric Currents ............................... 82 4.5.1 Sq Current ................................ 83 4.5.2 Equatorial Electrojet ........................... 84 4.6 Auroral Emissions ................................ 86 4.7 Concluding Remarks ............................... 88 References ........................................ 88 Problems ........................................ 89 Convection and Substorms 90 5.1 Diffusion and Frozen Flux ............................ 90 5.1.1 Magnetic Diffusion ............................ 91 5.1.2 Hydromagnetic Theorem ......................... 93 5.1.3 Magnetic Reynolds Number ....................... 95 Contents xi 5.1.4 Magnetic Merging ............................ 96 5.2 Convection Electric Field ............................. 98 5.2.1 Merging and Reconnection ........................ 98 5.2.2 Convection Electric Field ......................... 100 5.2.3 Shielding ................................. 101 5.3 Corotation and Plasmasphere ........................... 102 5.3.1 Corotation Electric Field ......................... 103 5.3.2 Plasmasphere ............................... 103 5.4 High-Latitude Electrodynamics .......................... 106 5.4.1 Ionospheric Convection ......................... 106 5.4.2 Height-Integrated Ohm s Law ...................... 107 5.4.3 Polarisation Electric Fields ........................ 108 5.4.4 Joule Heating ............................... 109 5.5 Auroral Electrojets ................................ 109 5.5.1 Conductances and Electric Fields .................... 109 5.5.2 Ionospheric and Field-Aligned Currents ................. Ill 5.5.3 Joule Heating and AE Index ....................... Ill 5.6 Magnetospheric Substorms ............................ 112 5.6.1 Substorm Growth ............................. 113 5.6.2 Substorm Onset and Expansion ..................... 114 5.6.3 Substorm Recovery ............................ 115 5.7 Substorm Currents ................................ 116 5.7.1 Substorm Electrojet ............................ 118 5.7.2 Substorm Current Wedge ......................... 120 5.8 Concluding Remarks ............................... 121 References ........................................ 123 Problems ........................................ 124 Elements of Kinetic Theory 126 6.1 Exact Phase Space Density ............................ 127 6.1.1 Exact Particle Density .......................... 127 6.1.2 Equation of Motion ............................ 129 6.1.3 Klimontovich-Dupree Equation ..................... 130 6.2 Average Distribution Function .......................... 131 6.2.1 Kinetic Equation ............................. 131 6.2.2 Boltzmann Equation ........................... 132 6.2.3 Vlasov Equation ............................. 134 6.2.4 Approximations to the Vlasov Equation ................. 135 6.3 Velocity Distributions ............................... 138 6.3.1 Maxwellian Distributions ......................... 139 6.3.2 Anisotropie Distributions ......................... 140 6.3.3 Loss Cone Distributions ......................... 142 6.3.4 Energy Distributions ........................... 144 6.3.5 Kappa and Power Law Distributions ................... 144 6.4 Measured Distribution Functions ......................... 145 6.4.1 Differential Particle Flux ......................... 146 6.4.2 Particle Fluxes in Near-Earth Space ................... 147 6.5 Macroscopic Variables .............................. 149 xii Contents 6.5.1 Velocity Moments ............................ 150 6.5.2 Concept of Temperature ......................... 151 6.6 Concluding Remarks ............................... 152 References ........................................ 154 Problems ........................................ 156 7 Plasma Magnetohydrodynamics 157 7.1 Multi-Fluid Theory ................................ 158 7.1.1 Continuity Equation ........................... 158 7.1.2 Equation of Motion ............................ 159 7.1.3 Energy Equation ............................. 161 7.2 Equation of State ................................. 162 7.2.1 Isotropie Pressure ............................. 162 7.2.2 Anisotropie Pressure ........................... 163 7.2.3 Double-Adiabatic Invariants ....................... 164 7.3 Single-Fluid Theory ................................ 166 7.3.1 Continuity Equation ........................... 167 7.3.2 Equation of Motion ............................ 168 7.3.3 Generalised Ohm s Law ......................... 169 7.3.4 Energy Conservation Equation ...................... 171 7.3.5 Entropy Equation ............................. 172 7.3.6 Magnetic Tension and Plasma Beta ................... 173 7.3.7 Equation of State ............................. 174 7.4 Stationarity and Equilibria ............................ 175 7.4.1 Boltzmann s Law ............................. 175 7.4.2 Diamagnetic Drift ............................ 176 7.4.3 Neutral Sheet Current .......................... 178 7.4.4 Field-Aligned Currents .......................... 180 7.4.5 Polarisation Drifts ............................ 181 7.4.6 Force-Free Fields ............................. 181 7.5 Concluding Remarks ............................... 184 7.5.1 Validity of Magnetohydrodynamics in Plasmas ............. 184 7.5.2 Summary of Magnetohydrodynamic Equations ............. 187 References ........................................ 187 Problems ........................................ 189 8 Flows and Discontinuities 191 8.1 SolarWind .................................... 191 8.1.1 Solar Coronal Outflow .......................... 192 8.1.2 Properties of the Solar Wind ....................... 194 8.1.3 Interplanetary Magnetic Field ...................... 195 8.1.4 Interaction with Obstacles ........................ 197 8.2 Fluid Boundaries ................................. 198 8.2.1 General Jump Conditions ......................... 199 8.2.2 Rankine-Hugoniot Conditions ...................... 201 8.3 MHD Discontinuities ............................... 204 8.3.1 Contact and Tangential Discontinuities ................. 204 8.3.2 Rotational Discontinuities ........................ 206 Contents x¡¡i 8.3.3 Effect of Pressure Anisotropy ...................... 208 8.3.4 Entropy Changes ............................. 209 8.4 Shocks ....................................... 209 8.4.1 Intermediate Shocks ........................... 210 8.4.2 True Shocks ................................ 211 8.4.3 Coplanarity ................................ 212 8.4.4 Jump Conditions ............................. 212 8.4.5 Fast and Slow Shocks .......................... 214 8.4.6 Shock Mach Numbers .......................... 215 8.5 Earth s Bow Shock ................................ 216 8.5.1 Parallel and Perpendicular Shocks .................... 218 8.5.2 Shock Currents .............................. 221 8.6 Earth s Magnetopause............................... 223 8.6.1 Shape of the Magnetopause ....................... 224 8.6.2 Magnetopause Current System ...................... 228 8.6.3 Magnetopause Reconstruction ...................... 229 8.6.4 Magnetosheath Flow ........................... 231 8.6.5 Reconnection at the Magnetopause ................... 234 8.7 Concluding Remarks ............................... 238 References ........................................ 239 Problems ........................................ 240 Waves in Plasma Fluids 242 9.1 Waves in Unmagnetised Fluids .......................... 243 9.1.1 Langmuir Oscillations .......................... 243 9.1.2 Langmuir Waves ............................. 245 9.1.3 Ion-Acoustic Waves ........................... 247 9.1.4 Debye Length ............................... 251 9.1.5 Ordinary Electromagnetic Waves .................... 253 9.2 General Dispersion Relation ........................... 255 9.2.1 General Wave Equation .......................... 256 9.2.2 General Wave Dispersion Relation .................... 257 9.2.3 Isotropie Plasma ............................. 258 9.2.4 Dielectric Response Function ...................... 259 9.3 Plasma Wave Energy ............................... 260 9.3.1 Langmuir Plasmons ........................... 261 9.3.2 Average Energy .............................. 261 9.4 Magnetohydrodynamic Waves .......................... 264 9.4.1 Magnetohydrodynamic Dispersion Relation ............... 264 9.4.2 Shear Alfvén Wave ............................ 267 9.4.3 Magnetosonic Waves ........................... 267 9.5 Cold Electron Plasma Waves ........................... 270 9.5.1 Cold Electron Plasma Dispersion Relation ................ 270 9.5.2 High-Frequency Electromagnetic Waves ................. 272 9.5.3 Parallel Electromagnetic Wave Propagation ............... 273 9.5.4 Perpendicular Electromagnetic Wave Propagation ............ 277 9.6 Two-Fluid Plasma Waves ............................. 279 9.6.1 Effect of Ion Dynamics .......................... 279 xiv Contents 9.6.2 Parallel Wave Propagation ........................ 280 9.6.3 Perpendicular Wave Propagation ..................... 281 9.6.4 Oblique Propagation ........................... 283 9.7 Geomagnetic Pulsations .............................. 286 9.7.1 Field Line Resonance ........................... 286 9.7.2 Sources of Pc Pulsations ......................... 287 9.7.3 РІ2 Pulsations ............................... 289 9.8 Concluding Remarks ............................... 291 References ........................................ 291 Problems ........................................ 292 10 Wave Kinetic Theory 294 10.1 Landau-Laplace Procedure ............................ 294 10.1.1 Langmuir Waves ............................. 296 10.1.2 Landau-Laplace Procedure ........................ 297 10.2 Landau Damping ................................. 300 10.2.1 Thermal Plasma ............................. 300 10.2.2 Damping Rate .............................. 302 10.2.3 Physics of Landau Damping ....................... 303 10.3 Unmagnetised Plasma Waves ........................... 307 10.3.1 Ion-Acoustic Waves ........................... 307 10.3.2 Electron-Acoustic Waves ......................... 310 10.3.3 Electromagnetic Waves .......................... 313 10.3.4 Plasma Dispersion Function ....................... 314 10.4 Magnetised Dispersion Relation ......................... 315 10.4.1 Particle Resonance ............................ 318 10.5 Electrostatic Plasma Waves ............................ 319 10.5.1 Magnetised Langmuir and Ion-Acoustic Waves ............. 320 10.5.2 Electron Bernstein Waves ........................ 321 10.5.3 Upper-Hybrid Waves ........................... 326 10.5.4 Ion Bernstein Waves ........................... 327 10.5.5 Lower-Hybrid Waves ........................... 329 10.6 Electromagnetic Plasma Waves .......................... 330 10.6.1 Weak Damping .............................. 331 10.6.2 Electromagnetic Modes ......................... 332 10.6.3 Whistlers ................................. 332 10.6.4 Electromagnetic Ion-Cyclotron Waves .................. 335 10.6.5 Kinetic Alfvén Waves .......................... 336 10.7 Concluding Remarks ............................... 341 References ........................................ 342 Problems ........................................ 343 11 Plasma Instability 345 11.1 Wave Growth Rate ................................ 346 11.1.1 Weak Instability ............................. 347 11.1.2 Non-oscillatory Instability ........................ 347 11.2 High-frequency Kinetic Instabilities ....................... 348 11.2.1 Resonant Excitation of Langmuir Waves ................. 349 Contents xv 11.2.2 Resonant Excitation of Ion-acoustic Waves ............... 351 11.2.3 Excitation of Weibel Instability ..................... 353 11.3 Fluid Instabilities ................................ 354 11.3.1 Electrostatic Two-stream (Buneman) Instability ............. 354 11.3.2 Electromagnetic Beam (Filamentation) Instability ............ 355 11.3.3 Firehose Instability ............................ 356 11.3.4 Mirror Instability ............................. 357 11.3.5 Kelvin-Helmholtz Instability ....................... 359 11.4 Thermal Fluctuations ............................... 360 11.4.1 General Expressions for the Fields .................... 361 11.4.2 Fluctuations in Isotropie Plasma ..................... 362 11.5 Concluding Remarks ............................... 364 References ........................................ 365 Problems ........................................ 366 12 Collisionless Reconnection 367 12.1 Reconnection Models ............................... 368 12.1.1 Sweet-Parker-Petschek-Sonnerup.................... 368 12.1.2 Ohm s Law Terms ............................ 371 12.2 Small-scale Physics of Reconnection ....................... 378 12.2.1 Absence of Guide Fields ......................... 379 12.2.2 Guide Field Reconnection ........................ 385 12.2.3 Driven Reconnection ........................... 389 12.3 Magnetopause Reconnection ........................... 390 12.3.1 Observations ............................... 391 12.3.2 Comparison with Simulations ...................... 393 12.4 Reconnecting Magnetotail Current Sheet ..................... 396 12.4.1 Observations ............................... 397 12.4.2 Magnetotail-relevant Simulations .................... 399 12.5 Concluding Remarks ............................... 402 References ........................................ 403 Problems ........................................ 406 13 Collisionless Shocks 407 13.1 Subcriticai Shocks ................................ 408 13.1.1 Mechanism of Subcriticai Shocks .................... 410 13.1.2 Causes of Anomalous Dissipation .................... 411 13.2 Quasi-perpendicular Shocks ........................... 414 13.2.1 Dynamics of Particle Reflection ..................... 415 13.2.2 Shock Foot and Reformation ....................... 417 13.2.3 Particle Dynamics ............................ 422 13.2.4 Waves ................................... 427 13.3 Quasi-parallel Shocks ............................... 429 13.3.1 Foreshock ................................. 430 13.3.2 Quasi-parallel Shock Reformation .................... 434 13.4 Concluding Remarks ............................... 440 References ........................................ 442 Problems ........................................ 444 xvi Contents 14 Final Remarks 445 A Some Basics 447 A.I Useful Constants and Numbers (SI units) .................... 447 A.2 Energy Units ................................... 448 A.3 Useful Formulas .................................. 448 A.4 Vectors and Tensors ................................ 449 A. 5 Some Electrodynamics .............................. 452 A.6 Plasma Entropy .................................. 455 A.7 Aspects of Analytic Theory ............................ 456 В Some Extensions 461 B.I Coulomb Logarithm ................................ 461 B.2 Transport Coefficients ............................... 463 B.3 Geomagnetic Indices ............................... 465 B.4 Liouville Approach ................................ 468 B.5 Clemmow-Mullaly-Allis Diagram ........................ 470 B.6 Magnetised Dielectric Tensor ........................... 471 Index 475 Basic Space Plasma Physics Revised Edition This textbook begins with a description of the Earth s plasma environment, followed by the derivation of single particle motions in electromagnetic fields, with applications to the Earth s magnetospnere. Also discussed are the origin and effects of collisions and conductivities, formation of the ionosphere, magnetospheric convection and dynamics, and solar wind-magnetosphere coupling. The second half of the book presents a more theoretical foundation of plasma physics, starting with kinetic theory. Introducing moments of distribution function permits the derivation of the fluid equations, followed by an analysis of fluid boundaries, with the Earth s magnetopause and bow shock as examples, and finally, fluid and kinetic theory are applied to derive the relevant wave modes in a plasma. This revised edition seamlessly integrates new sections on magnetopause reconstruction, as well as instability theory and thermal fluctuations based on new developments in space physics. Applications such as the important problems of collisionless reconnection and collisionless shocks are covered, and some problems have also been included at the end of each chapter.
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owner_facet	DE-703 DE-19 DE-BY-UBM
physical	XVI, 479 S. Ill., graph. Darst.
publishDate	2012
publishDateSearch	2012
publishDateSort	2012
publisher	World Scientific
record_format	marc
spelling	Baumjohann, Wolfgang 1950- Verfasser (DE-588)1079640924 aut Basic space plasma physics Wolfgang Baumjohann ; Rudolf A. Treumann Rev. ed New Jersey [u.a.] World Scientific 2012 XVI, 479 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Plasmaphysik (DE-588)4046259-6 gnd rswk-swf Astrophysik (DE-588)4003326-0 gnd rswk-swf Plasmaphysik (DE-588)4046259-6 s Astrophysik (DE-588)4003326-0 s 1\p DE-604 DE-604 Treumann, Rudolf A. 1942- Verfasser (DE-588)115464611 aut Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025124266&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Klappentext Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025124266&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Baumjohann, Wolfgang 1950- Treumann, Rudolf A. 1942- Basic space plasma physics Plasmaphysik (DE-588)4046259-6 gnd Astrophysik (DE-588)4003326-0 gnd
subject_GND	(DE-588)4046259-6 (DE-588)4003326-0
title	Basic space plasma physics
title_auth	Basic space plasma physics
title_exact_search	Basic space plasma physics
title_full	Basic space plasma physics Wolfgang Baumjohann ; Rudolf A. Treumann
title_fullStr	Basic space plasma physics Wolfgang Baumjohann ; Rudolf A. Treumann
title_full_unstemmed	Basic space plasma physics Wolfgang Baumjohann ; Rudolf A. Treumann
title_short	Basic space plasma physics
title_sort	basic space plasma physics
topic	Plasmaphysik (DE-588)4046259-6 gnd Astrophysik (DE-588)4003326-0 gnd
topic_facet	Plasmaphysik Astrophysik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025124266&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025124266&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT baumjohannwolfgang basicspaceplasmaphysics AT treumannrudolfa basicspaceplasmaphysics

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