Verfügbarkeit: Fundamentals of plasma physics

Fundamentals of plasma physics:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Bittencourt, José A. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York, NY [u.a.] Springer 2004
Ausgabe:	3. ed.
Schlagworte:	Plasma (Gases ionizados) Plasmaphysik Einführung Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXIII, 678 S. Ill., graph. Darst.
ISBN:	0387209751

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Datensatz im Suchindex

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adam_text	J.A. BITTENCOURT FUNDAMENTALS OF PLASMA PHYSICS THIRD EDITION SPRINGER CONTENTS PREFACE 1. INTRODUCTION 1. GENERAL PROPERTIES OF PLASMAS 1 1.1 DEFINITION OF A PLASMA 1 1.2 PLASMA AS THE FOURTH STATE OF MATTER 1 1.3 PLASMA PRODUCTION 2 1.4 PARTICLE INTERACTIONS AND COLLECTIVE EFFECTS 3 1.5 SOME BASIC PLASMA PHENOMENA 4 2. CRITERIA FOR THE DEFINITION OF A PLASMA 6 2.1 MACROSCOPIC NEUTRALITY 6 2.2 DEBYE SHIELDING 7 2.3 THE PLASMA FREQUENCY 9 3. THE OCCURRENCE OF PLASMAS IN NATURE 11 3.1 THE SUN AND ITS ATMOSPHERE 13 3.2 THE SOLAR WIND 13 3.3 THE MAGNETOSPHERE AND THE VAN ALLEN RADIATION BELTS 14 3.4 THE IONOSPHERE 16 3.5 PLASMAS BEYOND THE SOLAR SYSTEM 17 4. APPLICATIONS OF PLASMA PHYSICS 17 4.1 CONTROLLED THERMONUCLEAR FUSION 18 4.2 THE MAGNETOHYDRODYNAMIC GENERATOR 22 4.3 PLASMA PROPULSION 23 4.4 OTHER PLASMA DEVICES 23 X FUNDAMENTALS OF PLASMA PHYSICS 5. THEORETICAL DESCRIPTION OF PLASMA PHENOMENA 25 5.1 GENERAL CONSIDERATIONS ON A SELF-CONSISTENT FORMULATION 25 5.2 THEORETICAL APPROACHES 27 PROBLEMS 28 2. CHARGED PARTICLE MOTION IN AND UNIFORM ELECTROMAGNET 1. INTRODUCTION 33 2. ENERGY CONSERVATION 34 3. UNIFORM ELECTROSTATIC FIELD 36 4. UNIFORM MAGNETOSTATIC FIELD 37 4.1 FORMAL SOLUTION OF THE EQUATION OF MOTION 37 4.2 SOLUTION IN CARTESIAN COORDINATES 40 4.3 MAGNETIC MOMENT 44 4.4 MAGNETIZATION CURRENT 46 5. UNIFORM ELECTROSTATIC AND MAGNETOSTATIC FIELDS 49 5.1 FORMAL SOLUTION OF THE EQUATION OF MOTION 49 5.2 SOLUTION IN CARTESIAN COORDINATES 52 6. DRIFT DUE TO AN EXTERNAL FORCE 54 PROBLEMS 56 3. CHARGED PARTICLE MOTION IN NONUNIFORM MAGNETOSTATIC F16L0# 1. INTRODUCTION 59 2. SPATIAL VARIATION OF THE MAGNETIC FIELD 61 2.1 DIVERGENCE TERMS 62 2.2 GRADIENT AND CURVATURE TERMS 64 2.3 SHEAR TERMS 65 3. EQUATION OF MOTION IN THE FIRST-ORDER APPROXIMATION 66 4. AVERAGE FORCE OVER ONE GYRATION PERIOD 68 4.1 PARALLEL FORCE 70 4.2 PERPENDICULAR FORCE 72 4.3 TOTAL AVERAGE FORCE 73 CONTENTS XI 5. GRADIENT DRIFT 74 6. PARALLEL ACCELERATION OF THE GUIDING CENTER 74 6.1 INVARIANCE OF THE ORBITAL MAGNETIC MOMENT AND OF THE MAGNETIC FLUX 75 6.2 MAGNETIC MIRROR EFFECT 77 6.3 THE LONGITUDINAL ADIABATIC INVARIANT 81 7. CURVATURE DRIFT 84 8. COMBINED GRADIENT-CURVATURE DRIFT 87 PROBLEMS 89 4. CHARGED PARTICLE MOTION IN, ;,* ^ TIME-VARYING ELECTROMAGNET^FC 1. INTRODUCTION 95 2. SLOWLY TIME-VARYING ELECTRIC FIELD 95 2.1 EQUATION OF MOTION AND POLARIZATION DRIFT 95 2.2 PLASMA DIELECTRIC CONSTANT 97 3. ELECTRIC FIELD WITH ARBITRARY TIME VARIATION 100 3.1 SOLUTION OF THE EQUATION OF MOTION 100 3.2 PHYSICAL INTERPRETATION 102 3.3 MOBILITY DYAD 105 3.4 PLASMA CONDUCTIVITY DYAD 105 3.5 CYCLOTRON RESONANCE 106 4. TIME-VARYING MAGNETIC FIELD AND SPACE-VARYING ELECTRIC FIELD 108 4.1 EQUATION OF MOTION AND ADIABATIC INVARIANTS 108 4.2 MAGNETIC HEATING OF A PLASMA 112 5. SUMMARY OF GUIDING CENTER DRIFTS AND CURRENT DENSITIES 115 5.1 GUIDING CENTER DRIFTS 115 5.2 CURRENT DENSITIES 115 PROBLEMS 116 XII FUNDAMENTALS OF PLASMA PHYSICS 1. INTRODUCTION 122 2. PHASE SPACE 123 2.1 SINGLE-PARTICLE PHASE SPACE 123 2.2 MANY-PARTICLE PHASE SPACE 123 2.3 VOLUME ELEMENTS 124 3. DISTRIBUTION FUNCTION 126 4. NUMBER DENSITY AND AVERAGE VELOCITY 128 5. THE BOLTZMANN EQUATION 129 5.1 COLLISIONLESS BOLTZMANN EQUATION 129 5.2 JACOBIAN OF THE TRANSFORMATION IN PHASE SPACE 132 5.3 EFFECTS OF PARTICLE INTERACTIONS 133 6. RELAXATION MODEL FOR THE COLLISION TERM 135 7. THE VLASOV EQUATION 136 PROBLEMS 138 6. AVERAGE VALUES AND MACROSCOPIC VARIABLES -7$JJML 1. AVERAGE VALUE OF A PHYSICAL QUANTITY 141 2. AVERAGE VELOCITY AND PECULIAR VELOCITY 142 3. FLUX 143 4. PARTICLE CURRENT DENSITY 146 5. MOMENTUM FLOW DYAD OR TENSOR 147 6. PRESSURE DYAD OR TENSOR 148 6.1 CONCEPT OF PRESSURE 148 6.2 FORCE PER UNIT AREA 149 6.3 FORCE PER UNIT VOLUME 151 6.4 SCALAR PRESSURE AND ABSOLUTE TEMPERATURE 152 7. HEAT FLOW VECTOR 154 8. HEAT FLOW TRIAD 154 9. TOTAL ENERGY FLUX TRIAD 155 CONTENTS XIII 10. HIGHER MOMENTS OF THE DISTRIBUTION FUNCTION 157 PROBLEMS 157 7. THE EQUILIBRIUM STATE 1. THE EQUILIBRIUM STATE DISTRIBUTION FUNCTION 161 1.1 THE GENERAL PRINCIPLE OF DETAILED BALANCE AND BINARY COLLISIONS 162 1.2 SUMMATION INVARIANTS 164 1.3 MAXWELL-BOLTZMANN DISTRIBUTION FUNCTION 165 1.4 DETERMINATION OF THE CONSTANT COEFFICIENTS 166 1.5 LOCAL MAXWELL-BOLTZMANN DISTRIBUTION FUNCTION 169 2. THE MOST PROBABLE DISTRIBUTION 169 3. MIXTURE OF VARIOUS PARTICLE SPECIES 170 4. PROPERTIES OF THE MAXWELL-BOLTZMANN DISTRIBUTION FUNCTION 171 4.1 DISTRIBUTION OF A VELOCITY COMPONENT 171 4.2 DISTRIBUTION OF SPEEDS 174 4.3 MEAN VALUES RELATED TO THE MOLECULAR SPEEDS 176 4.4 DISTRIBUTION OF THERMAL KINETIC ENERGY 178 4.5 RANDOM PARTICLE FLUX 178 4.6 KINETIC PRESSURE AND HEAT FLUX 181 5. EQUILIBRIUM IN THE PRESENCE OF AN EXTERNAL FORCE 181 6. DEGREE OF IONIZATION IN EQUILIBRIUM AND THE SAHA EQUATION 184 PROBLEMS 187 8. MACROSCOPIC TRANSPORT EQUATIONS V Y% 1. MOMENTS OF THE BOLTZMANN EQUATION 193 2. GENERAL TRANSPORT EQUATION 194 3. CONSERVATION OF MASS 197 3.1 DERIVATION OF THE CONTINUITY EQUATION 197 3.2 DERIVATION BY THE METHOD OF FLUID DYNAMICS 198 3.3 THE COLLISION TERM 200 XIV FUNDAMENTALS OF PLASMA PHYSICS 4. CONSERVATION OF MOMENTUM 200 4.1 DERIVATION OF THE EQUATION OF MOTION 200 4.2 THE COLLISION TERM 203 5. CONSERVATION OF ENERGY 204 5.1 DERIVATION OF THE ENERGY TRANSPORT EQUATION 204 5.2 PHYSICAL INTERPRETATION 207 5.3 SIMPLIFYING APPROXIMATIONS 207 6. THE COLD PLASMA MODEL 210 7. THE WARM PLASMA MODEL 211 PROBLEMS 212 9. MACROSCOPIC EQUATIONS 11II MM I INIIYI\|\|)LJLLIWLLILILLLLMLLLM 1. MACROSCOPIC VARIABLES FOR A PLASMA AS A CONDUCTING FLUID 219 2. CONTINUITY EQUATION 222 3. EQUATION OF MOTION 223 4. ENERGY EQUATION 224 5. ELECTRODYNAMIC EQUATIONS FOR A CONDUCTING FLUID 227 5.1 MAXWELL CURL EQUATIONS 228 5.2 CONSERVATION OF ELECTRIC CHARGE 228 5.3 GENERALIZED OHM S LAW 229 6. SIMPLIFIED MAGNETOHYDRODYNAMIC EQUATIONS 234 PROBLEMS 236 1. INTRODUCTION 238 2. THE LANGEVIN EQUATION 238 3. LINEARIZATION OF THE LANGEVIN EQUATION 240 4. DC CONDUCTIVITY AND ELECTRON MOBILITY 242 4.1 ISOTROPIC PLASMA 242 4.2 ANISOTROPIC MAGNETOPLASMA 243. CONTENTS XV 5. AC CONDUCTIVITY AND ELECTRON MOBILITY 247 6. CONDUCTIVITY WITH ION MOTION 249 7. PLASMA AS A DIELECTRIC MEDIUM 250 8. FREE ELECTRON DIFFUSION 251 9. ELECTRON DIFFUSION IN A MAGNETIC FIELD 254 10. AMBIPOLAR DIFFUSION 256 11. DIFFUSION IN A FULLY IONIZED PLASMA 260 PROBLEMS 262 11. SOME BASIC PLASMA PHENOMENA 1. ELECTRON PLASMA OSCILLATIONS 269 2. THE DEBYE SHIELDING PROBLEM 273 3. DEBYE SHIELDING USING THE VLASOV EQUATION 278 4. PLASMA SHEATH 279 4.1 PHYSICAL MECHANISM 280 4.2 ELECTRIC POTENTIAL ON THE WALL 281 4.3 INNER STRUCTURE OF THE PLASMA SHEATH 282 5. PLASMA PROBE 288 PROBLEMS 291 12. SIMPLE APPLICATIONS OF MAGF 1. FUNDAMENTAL EQUATIONS OF MAGNETOHYDRODYNAMICS 299 1.1 PARKER MODIFIED MOMENTUM EQUATION 300 1.2 THE DOUBLE ADIABATIC EQUATIONS OF CHEW, GOLDBERGER, AND LOW (CGL) 302 1.3 SPECIAL CASES OF THE DOUBLE ADIABATIC EQUATIONS 305 1.4 ENERGY INTEGRAL 307 2. MAGNETIC VISCOSITY AND REYNOLDS NUMBER 309 3. DIFFUSION OF MAGNETIC FIELD LINES 311 XVI FUNDAMENTALS OF PLASMA PHYSICS 4. FREEZING OF MAGNETIC FIELD LINES TO THE PLASMA 312 5. MAGNETIC PRESSURE 316 6. ISOBARIC SURFACES 318 7. PLASMA CONFINEMENT IN A MAGNETIC FIELD 319 PROBLEMS 322 13. THE PINCH EFFECT .. -V : . ,:C-;./I 1. INTRODUCTION 325 2. THE EQUILIBRIUM PINCH 326 3. THE BENNETT PINCH 332 4. DYNAMIC MODEL OF THE PINCH 335 5. INSTABILITIES IN A PINCHED PLASMA COLUMN 341 6. THE SAUSAGE INSTABILITY 342 7. THE KINK INSTABILITY 345 8. CONVEX FIELD CONFIGURATIONS 346 PROBLEMS 348 14. ELECTROMAGNETIC WAVES IN T^WA& ^$M?MMTH 1. THE WAVE EQUATION 351 2. SOLUTION IN PLANE WAVES 351 3. HARMONIC WAVES 354 4. POLARIZATION 358 5. ENERGY FLOW 363 6. WAVE PACKETS AND GROUP VELOCITY 366 PROBLEMS 370 CONTENTS 15- MAGNETOHYDRODYNAMIC WAVES 1. INTRODUCTION 1.1 ALFVEN WAVES 1.2 MAGNETOSONIC WAVES 2. MHD EQUATIONS FOR A COMPRESSIBLE NONVISCOUS CONDUCTING FLUID 2.1 BASIC EQUATIONS 2.2 DEVELOPMENT OF AN EQUATION FOR THE FLUID VELOCITY 3. PROPAGATION PERPENDICULAR TO THE MAGNETIC FIELD 4. PROPAGATION PARALLEL TO THE MAGNETIC FIELD 5. PROPAGATION AT ARBITRARY DIRECTIONS 5.1 PURE ALFVEN WAVE 5.2 FAST AND SLOW MHD WAVES 5.3 PHASE VELOCITIES 5.4 WAVE NORMAL SURFACES 6. EFFECT OF DISPLACEMENT CURRENT 6.1 BASIC EQUATIONS 6.2 EQUATION FOR THE FLUID VELOCITY 6.3 PROPAGATION ACROSS THE MAGNETOSTATIC FIELD 6.4 PROPAGATION ALONG THE MAGNETOSTATIC FIELD 7. DAMPING OF MHD WAVES 7.1 ALFVEN WAVES 7.2 SOUND WAVES 7.3 MAGNETOSONIC WAVES PROBLEMS 375 376 377 379 379 381 382 383 384 386 387 387 388 390 392 392 393 393 394 395 396 396 397 16. WAVES IN COLD PLASMAS - * 1. INTRODUCTION 2. BASIC EQUATIONS OF MAGNETOIONIC THEORY ,3. PLANE WAVE SOLUTIONS AND LINEARIZATION 4. WAVE PROPAGATION IN ISOTROPIC ELECTRON PLASMAS : 4.1 DERIVATION OF THE DISPERSION RELATION ! 4.2 COLLISIONLESS PLASMA 400 401 402 403 403 405 XVIII FUNDAMENTALS OF PLASMA PHYSICS 4.3 TIME-AVERAGED POYNTING VECTOR 407 4.4 THE EFFECT OF COLLISIONS 410 5. WAVE PROPAGATION IN MAGNETIZED COLD PLASMAS 413 5.1 DERIVATION OF THE DISPERSION RELATION 414 5.2 THE APPLETON-HARTREE EQUATION 418 6. PROPAGATION PARALLEL TO B O 419 7. PROPAGATION PERPENDICULAR TO B O 423 8. PROPAGATION AT ARBITRARY DIRECTIONS 430 8.1 RESONANCES AND REFLECTION POINTS 430 8.2 WAVE NORMAL SURFACES 432 8.3 THE CM A DIAGRAM 434 9. SOME SPECIAL WAVE PHENOMENA IN COLD PLASMAS 439 9.1 ATMOSPHERIC WHISTLERS 439 9.2 HELICONS 442 9.3 FARADAY ROTATION 444 PROBLEMS 447 17. WAVES IN WARM PLASMAS . :,- 1. INTRODUCTION 453 2. WAVES IN A FULLY IONIZED ISOTROPIC WARM PLASMA 453 2.1 DERIVATION OF THE EQUATIONS FOR THE ELECTRON AND ION VELOCITIES 453 2.2 LONGITUDINAL WAVES 456 2.3 TRANSVERSE WAVE 458 3. BASIC EQUATIONS FOR WAVES IN A WARM MAGNETOPLASMA 460 4. WAVES IN A WARM ELECTRON GAS IN A MAGNETIC FIELD 462 4.1 DERIVATION OF THE DISPERSION RELATION 462 4.2 WAVE PROPAGATION ALONG THE MAGNETIC FIELD 463 4.3 WAVE PROPAGATION NORMAL TO THE MAGNETIC FIELD 466 4.4 WAVE PROPAGATION AT ARBITRARY DIRECTIONS 469 5. WAVES IN A FULLY IONIZED WARM MAGNETOPLASMA 470 5.1 DERIVATION OF THE DISPERSION RELATION 471 5.2 WAVE PROPAGATION ALONG THE MAGNETIC FIELD 473 5.3 WAVE PROPAGATION NORMAL TO THE MAGNETIC FIELD 477 CONTENTS 5.4 WAVE PROPAGATION AT ARBITRARY DIRECTIONS 6. SUMMARY PROBLEMS 479 479 481 18. WAVES IN HOT ISOTROPIC PLASMAS 1. INTRODUCTION 2. BASIC EQUATIONS 3. GENERAL RESULTS FOR A PLANE WAVE IN A HOT ISOTROPIC PLASMA 3.1 PERTURBATION CHARGE DENSITY AND CURRENT DENSITY 3.2 SOLUTION OF THE LINEARIZED VLASOV EQUATION 3.3 EXPRESSION FOR THE CURRENT DENSITY 3.4 SEPARATION INTO THE VARIOUS MODES 4. ELECTROSTATIC LONGITUDINAL WAVE IN A HOT ISOTROPIC PLASMA 4.1 DEVELOPMENT OF THE DISPERSION RELATION 4.2 LIMITING CASE OF A COLD PLASMA 4.3 HIGH PHASE VELOCITY LIMIT 4.4 DISPERSION RELATION FOR MAXWELLIAN DISTRIBUTION FUNCTION 4.5 LANDAU DAMPING 5. TRANSVERSE WAVE IN A HOT ISOTROPIC PLASMA 5.1 DEVELOPMENT OF THE DISPERSION RELATION 5.2 COLD PLASMA RESULT 5.3 DISPERSION RELATION FOR MAXWELLIAN DISTRIBUTION FUNCTION 5.4 LANDAU DAMPING OF THE TRANSVERSE WAVE 6. THE TWO-STREAM INSTABILITY 7. SUMMARY 7.1 LONGITUDINAL MODE 7.2 TRANSVERSE MODE 483 483 485 485 486 488 489 491 491 492 493 494 500 503 503 504 504 505 506 508 508 509 PROBLEMS 510 XX FUNDAMENTALS OF PLASMA PHYSICS 19. WAVES IN HOT MAGNETIZED PLASMAS V 1. INTRODUCTION 515 2. WAVE PROPAGATION ALONG THE MAGNETOSTATIC FIELD IN A HOT PLASMA 516 2.1 LINEARIZED VLASOV EQUATION 516 2.2 SOLUTION OF THE LINEARIZED VLASOV EQUATION 517 2.3 PERTURBATION CURRENT DENSITY 522 2.4 SEPARATION INTO THE VARIOUS MODES 524 2.5 LONGITUDINAL PLASMA WAVE 525 2.6 TRANSVERSE ELECTROMAGNETIC WAVES 526 2.7 TEMPORAL DAMPING OF THE TRANSVERSE ELECTROMAGNETIC WAVES 529 2.8 CYCLOTRON DAMPING OF THE RCP TRANSVERSE WAVE 531 2.9 INSTABILITIES IN THE RCP TRANSVERSE WAVE 532 3. WAVE PROPAGATION ACROSS THE MAGNETOSTATIC FIELD IN A HOT PLASMA 534 3.1 SOLUTION OF THE LINEARIZED VLASOV EQUATION 536 3.2 CURRENT DENSITY AND THE CONDUCTIVITY TENSOR 538 3.3 EVALUATION OF THE INTEGRALS 540 3.4 SEPARATION INTO THE VARIOUS MODES 544 3.5 DISPERSION RELATIONS 545 3.6 THE QUASISTATIC MODE 546 3.7 THE TEM MODE 550 4. SUMMARY 552 4.1 PROPAGATION ALONG BO IN HOT MAGNETOPLASMAS 552 4.2 PROPAGATION ACROSS B O IN HOT MAGNETOPLASMAS 553 PROBLEMS 554 20. PARTICLE INTERACTIONS IN PLASMAS . ..* .V 1. INTRODUCTION 560 2. BINARY COLLISIONS 561 3. DYNAMICS OF BINARY COLLISIONS 566 4. EVALUATION OF THE SCATTERING ANGLE 569 4.1 TWO PERFECTLY ELASTIC HARD SPHERES 570 CONTENTS 4.2 COULOMB INTERACTION POTENTIAL 5. CROSS SECTIONS 5.1 DIFFERENTIAL SCATTERING CROSS SECTION 5.2 TOTAL SCATTERING CROSS SECTION 5.3 MOMENTUM TRANSFER CROSS SECTION 6. CROSS SECTIONS FOR THE HARD SPHERE MODEL 6.1 DIFFERENTIAL SCATTERING CROSS SECTION 6.2 TOTAL SCATTERING CROSS SECTION 6.3 MOMENTUM TRANSFER CROSS SECTION 7. CROSS SECTIONS FOR THE COULOMB POTENTIAL 7.1 DIFFERENTIAL SCATTERING CROSS SECTION 7.2 TOTAL SCATTERING CROSS SECTION 7.3 MOMENTUM TRANSFER CROSS SECTION 8. SCREENING OF THE COULOMB POTENTIAL PROBLEMS 570 572 574 576 577 578 578 579 579 580 580 581 581 582 586 21. THE BOLTZMANN AND THE FOKKER-PLANCK EQUATIONS?^ 1. INTRODUCTION 2. THE BOLTZMANN EQUATION 2.1 DERIVATION OF THE BOLTZMANN COLLISION INTEGRAL 2.2 JACOBIAN OF THE TRANSFORMATION 2.3 ASSUMPTIONS IN THE DERIVATION OF THE BOLTZMANN COLLISION INTEGRAL 2.4 RATE OF CHANGE OF A PHYSICAL QUANTITY AS A RESULT OF COLLISIONS 3. THE BOLTZMANN S H FUNCTION 3.1 BOLTZMANN S H THEOREM 3.2 ANALYSIS OF BOLTZMANN S H THEOREM 3.3 MAXIMUM ENTROPY OR MINIMUM H APPROACH FOR DERIVING THE EQUILIBRIUM DISTRIBUTION FUNCTION 3.4 MIXTURE OF VARIOUS PARTICLE SPECIES 4. BOLTZMANN COLLISION TERM FOR A WEAKLY IONIZED PLASMA 589 590 590 594 596 597 598 599 601 604 606 607 XXII FUNDAMENTALS OF PLASMA PHYSICS 4.1 SPHERICAL HARMONIC EXPANSION OF THE DISTRIBUTION FUNCTION 607 4.2 APPROXIMATE EXPRESSION FOR THE BOLTZMANN COLLISION TERM 609 4.3 RATE OF CHANGE OF MOMENTUM DUE TO COLLISIONS 611 5. THE FOKKER-PLANCK EQUATION 612 5.1 DERIVATION OF THE FOKKER-PLANCK COLLISION TERM 612 5.2 THE FOKKER-PLANCK COEFFICIENTS FOR COULOMB INTERACTIONS 616 5.3 APPLICATION TO ELECTRON-ION COLLISIONS 621 PROBLEMS 621 22. TRANSPORT PROCESSES IN PLASMAS- 1. INTRODUCTION 628 2. ELECTRIC CONDUCTIVITY IN A NONMAGNETIZED PLASMA 629 2.1 SOLUTION OF THE BOLTZMANN EQUATION 629 2.2 ELECTRIC CURRENT DENSITY AND CONDUCTIVITY 630 2.3 CONDUCTIVITY FOR MAXWELLIAN DISTRIBUTION FUNCTION 633 3. ELECTRIC CONDUCTIVITY IN A MAGNETIZED PLASMA 634 3.1 SOLUTION OF BOLTZMANN EQUATION 634 3.2 ELECTRIC CURRENT DENSITY AND CONDUCTIVITY 637 4. FREE DIFFUSION 640 4.1 PERTURBATION DISTRIBUTION FUNCTION 640 4.2 PARTICLE FLUX 641 4.3 FREE DIFFUSION COEFFICIENT 641 5. DIFFUSION IN A MAGNETIC FIELD 643 5.1 SOLUTION OF BOLTZMANN EQUATION 643 5.2 PARTICLE FLUX AND DIFFUSION COEFFICIENTS 645 6. HEAT FLOW 647 6.1 GENERAL EXPRESSION FOR THE HEAT FLOW VECTOR 647 6.2 THERMAL CONDUCTIVITY FOR A CONSTANT KINETIC PRESSURE 648 6.3 THERMAL CONDUCTIVITY FOR THE ADIABATIC CASE 649 PROBLEMS 650 CONTENTS APPENDIX A USEFUL VECTOR RELATIONS APPENDIX B USEFUL RELATIONS IN CARTESIAN AND IN CURVILINEAR COORDINATES APPENDIX C PHYSICAL CONSTANTS (MKSA) APPENDIX D CONVERSION FACTORS FOR PHYSICAL UNITS APPENDIX E SOME IMPORTANT PLASMA PARAMETERS APPENDIX F APPROXIMATE MAGNITUDES IN SOME TYPICAL PLASMAS INDEX 655 658 662 663 664 667 669
any_adam_object	1
author	Bittencourt, José A.
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spelling	Bittencourt, José A. Verfasser (DE-588)111136121 aut Fundamentals of plasma physics J. A. Bittencourt Plasma physics 3. ed. New York, NY [u.a.] Springer 2004 XXIII, 678 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Plasma (Gases ionizados) Plasmaphysik (DE-588)4046259-6 gnd rswk-swf (DE-588)4151278-9 Einführung gnd-content (DE-588)4123623-3 Lehrbuch gnd-content Plasmaphysik (DE-588)4046259-6 s DE-604 Erscheint auch als Online-Ausgabe 978-1-4757-4030-1 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013108997&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Bittencourt, José A. Fundamentals of plasma physics Plasma (Gases ionizados) Plasmaphysik (DE-588)4046259-6 gnd
subject_GND	(DE-588)4046259-6 (DE-588)4151278-9 (DE-588)4123623-3
title	Fundamentals of plasma physics
title_alt	Plasma physics
title_auth	Fundamentals of plasma physics
title_exact_search	Fundamentals of plasma physics
title_full	Fundamentals of plasma physics J. A. Bittencourt
title_fullStr	Fundamentals of plasma physics J. A. Bittencourt
title_full_unstemmed	Fundamentals of plasma physics J. A. Bittencourt
title_short	Fundamentals of plasma physics
title_sort	fundamentals of plasma physics
topic	Plasma (Gases ionizados) Plasmaphysik (DE-588)4046259-6 gnd
topic_facet	Plasma (Gases ionizados) Plasmaphysik Einführung Lehrbuch
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013108997&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT bittencourtjosea fundamentalsofplasmaphysics AT bittencourtjosea plasmaphysics

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