Fundamentals of plasma physics PDF
Preview Fundamentals of plasma physics
Blurbpagehere-afewparagraphsgivingbriefdescriptionofbook DRAFT Copyright-PaulM.Bellan September30,2004 contents subject to change =⇒ ⇐= This draft copy is being submitted for evaluation of print quality and iden- tification of any other issues-please do not use for final publication!! It was composed as follows: 1. Written using Scientific WorkPlaceV5 (this produces Latex output and thena dvi file),ScientificWorkPlacewebsiteisathttp://www.mackichan.com/ 2. A ‘StyleFile’ file was created using StyleEditor in ScientificWorkPlace; this file hasbeencontinuouslyrevisedtoimprovetheappearance(e.g.,margins,headers,location ofpagenumbers,etc.). 3. The dvi file created by Latex was then printed to a postscript file using AdobePS genericpostscriptdriveronWindows2000operatingsystem. 4.AdobePSwastweakedassuggestedinthewebsite http://www.cs.biu.ac.il/~herzbea/makeP.htmwhich statedfollowing for maximizing qual- ityofoutput: “After youinstalltheprinter,youmaywanttofine-tuneitsproperties. Todoso,open againthePrinterssettingfolder,andrightclickontheprinter;select‘Properties‘. Under ‘DeviceSettings‘,setverylowvalues(e.g.5)tothefollowingtwoparameters: Minimumfontsizetodownloadasoutline Maximumfontsizetodownloadasbitmap Next, go to the ‘Advanced‘ tab, and from there, select ‘Printing Defaults...‘. In the windowthatopens,select‘Documentoptions‘,then‘Postscriptoptions‘. Setthefollowing twooptions: PostScriptOutputOption: OptimizeforPortability TrueTypeFontDownloadOption: Outline” Note: the above suggestions were for MS Imagesetter driver, but this driver failed to printsomefiguresproperlysotheAdobePSwassubstitutedinsteadandworksmuchbetter. 5. The postscript file can be read with no difficulties using GhostScript 4.3 on my PentiumIVrunningWindows2000andgivesgoodqualityprintedoutputfromGhostscript onmyHPLaserjet6MPpostscriptprinter(600dpi). Fundamentals of Plasma Physics Paul M. Bellan publisher’sinformationpage(pageiv,butnotnumbered) Contentsincludes: PublishedbyCUP date LibraryofCongress, ComposedusingScientificWorkplace,Latex tomyparents Contents Preface xi 1 Basicconcepts 1 1.1 Historyoftheterm“plasma” 1 1.2 Briefhistoryofplasmaphysics 1 1.3 Plasmaparameters 3 1.4 Examplesofplasmas 3 1.5 Logicalframeworkofplasmaphysics 4 1.6 Debyeshielding 7 1.7 Quasi-neutrality 9 1.8 Smallv.largeanglecollisionsinplasmas 11 1.9 Electronandioncollisionfrequencies 14 1.10 Collisionswithneutrals 16 1.11 Simpletransportphenomena 17 1.12 Aquantitativeperspective 20 1.13 Assignments 22 2 Derivationoffluidequations: Vlasov,2-fluid,MHD 30 2.1 Phase-space 30 2.2 DistributionfunctionandVlasovequation 31 2.3 Momentsofthedistributionfunction 33 2.4 Two-fluidequations 36 2.5 Magnetohydrodynamicequations 46 2.6 SummaryofMHDequations 52 2.7 SheathphysicsandLangmuirprobetheory 53 2.8 Assignments 58 3 Motionofasingleplasmaparticle 62 3.1 Motivation 62 3.2 Hamilton-Lagrangeformalismv.Lorentzequation 62 3.3 Adiabaticinvariantofapendulum 66 3.4 ExtensionofWKBmethodtogeneraladiabaticinvariant 68 3.5 Driftequations 73 3.6 RelationofDriftEquationstotheDoubleAdiabaticMHDEquations 91 3.7 Non-adiabaticmotioninsymmetricgeometry 95 3.8 Motioninsmall-amplitudeoscillatoryfields 108 3.9 Wave-particleenergytransfer 110 3.10 Assignments 119 viii 4 Elementaryplasmawaves 123 4.1 Generalmethodforanalyzingsmallamplitudewaves 123 4.2 Two-fluidtheoryofunmagnetizedplasmawaves 124 4.3 Lowfrequencymagnetizedplasma:Alfvénwaves 131 4.4 Two-fluidmodelofAlfvénmodes 138 4.5 Assignments 147 5 StreaminginstabilitiesandtheLandauproblem 149 5.1 Streaminginstabilities 149 5.2 TheLandauproblem 153 5.3 ThePenrosecriterion 172 5.4 Assignments 175 6 Coldplasmawavesinamagnetizedplasma 178 6.1 RedundancyofPoisson’sequationinelectromagneticmodeanalysis 178 6.2 Dielectrictensor 179 6.3 Dispersionrelationexpressedasarelationbetweenn2 andn2 193 x z 6.4 Ajourneythroughparameterspace 195 6.5 Highfrequencywaves: Altar-Appleton-Hartreedispersionrelation 197 6.6 Groupvelocity 201 6.7 Quasi-electrostaticcoldplasmawaves 203 6.8 Resonancecones 204 6.9 Assignments 208 7 Wavesininhomogeneousplasmasandwaveenergyrelations 210 7.1 Wavepropagationininhomogeneousplasmas 210 7.2 Geometricoptics 213 7.3 Surfacewaves-theplasma-filledwaveguide 214 7.4 Plasmawave-energyequation 219 7.5 Cold-plasmawaveenergyequation 221 7.6 Finite-temperatureplasmawaveenergyequation 224 7.7 Negativeenergywaves 225 7.8 Assignments 228 8 Vlasovtheoryofwarmelectrostaticwavesinamagnetizedplasma 229 8.1 Uniformplasma 229 8.2 Analysisofthewarmplasmaelectrostaticdispersionrelation 234 8.3 Bernsteinwaves 236 8.4 Warm,magnetized,electrostaticdispersionwithsmall,butfinitek 239 (cid:1) 8.5 Analysisoflinearmodeconversion 241 8.6 Driftwaves 249 8.7 Assignments 263 9 MHDequilibria 264 9.1 WhyuseMHD? 264 9.2 Vacuummagneticfields 265 ix 9.3 Force-freefields 268 9.4 Magneticpressureandtension 268 9.5 Magneticstresstensor 271 9.6 Fluxpreservation,energyminimization,andinductance 272 9.7 Staticversusdynamicequilibria 274 9.8 Staticequilibria 275 9.9 Dynamicequilibria:flows 286 9.10 Assignments 295 10 StabilityofstaticMHDequilibria 298 10.1 TheRayleigh-Taylorinstabilityofhydrodynamics 299 10.2 MHDRayleigh-Taylorinstability 302 10.3 TheMHDenergyprinciple 306 10.4 Discussionoftheenergyprinciple 319 10.5 Current-driveninstabilitiesandhelicity 319 10.6 Magnetichelicity 320 10.7 Qualitativedescriptionoffree-boundaryinstabilities 323 10.8 Analysisoffree-boundaryinstabilities 326 10.9 Assignments 334 11 MagnetichelicityinterpretedandWoltjer-Taylorrelaxation 336 11.1 Introduction 336 11.2 Topologicalinterpretationofmagnetichelicity 336 11.3 Woltjer-Taylorrelaxation 341 11.4 Kinkingandmagnetichelicity 345 11.5 Assignments 357 12 Magneticreconnection 360 12.1 Introduction 360 12.2 Water-beading:ananalogytomagnetictearingandreconnection 361 12.3 Qualitativedescriptionofsheetcurrentinstability 362 12.4 Semi-quantitativeestimateofthetearingprocess 364 12.5 Generalizationoftearingtoshearedmagneticfields 371 12.6 Magneticislands 376 12.7 Assignments 378 13 Fokker-Plancktheoryofcollisions 382 13.1 Introduction 382 13.2 StatisticalargumentforthedevelopmentoftheFokker-Planckequation 384 13.3 Electricalresistivity 393 13.4 Runawayelectricfield 395 13.5 Assignments 395 14 Wave-particlenonlinearities 398 14.1 Introduction 398 14.2 Vlasovnon-linearityandquasi-linearvelocityspacediffusion 399 x 14.3 Echoes 412 14.4 Assignments 426 15 Wave-wavenonlinearities 428 15.1 Introduction 428 15.2 Manley-Rowerelations 430 15.3 Applicationtowaves 435 15.4 Non-lineardispersionformulationandinstabilitythreshold 444 15.5 Diggingaholeintheplasmaviaponderomotiveforce 448 15.6 Ionacousticwavesoliton 454 15.7 Assignments 457 16 Non-neutralplasmas 460 16.1 Introduction 460 16.2 Brillouinflow 460 16.3 Isomorphismtoincompressible2Dhydrodynamics 463 16.4 Nearperfectconfinement 464 16.5 Diocotronmodes 465 16.6 Assignments 476 17 Dustyplasmas 483 17.1 Introduction 483 17.2 Electronandioncurrentflowtoadustgrain 484 17.3 Dustcharge 486 17.4 Dustyplasmaparameterspace 490 17.5 LargeP limit:dustacousticwaves 491 17.6 Dustionacousticwaves 494 17.7 Thestronglycoupledregime: crystallizationofadustyplasma 495 17.8 Assignments 504 Bibliographyandsuggestedreading 507 References 509 AppendixA: Intuitivemethodforvectorcalculusidentities 515 AppendixB: Vectorcalculusinorthogonalcurvilinearcoordinates 518 AppendixC: Frequentlyusedphysicalconstantsandformulae 524 Index 528
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