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吴德金 著 / 科学出版社 / 2013-01 / 精装
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动力学阿尔文波:理论、实验和应用(英文版)
《动力学阿尔文波:理论、实验和应用(英文版)》这部学术专著不仅系统阐述了动力学阿尔文波的物理特性、基本理论和实验研究,也深入地介绍了他与合作者在这一国际前沿领域的最新研究成果,特别是动力学阿尔文波在极光高能电子加速、日冕等离子体非均匀加热、以及延伸日冕中少量重离子“反常加热”等粒子能化现象中的应用。来自比利时“空间和高层大气物理学”研究所(BelgianInstituteforSpaceAeronomy)的物理学家YuriyM.Voitenko教授在为该书撰写的序言中推荐该书弥补了近20年来动力学阿尔文波研究领域里的一项空白。
BriefIntroductionForewordPrefaceChapter1DescriptionsofMagneto-Plasmas1.1Introduction1.2BasicParametersandCharacteristics1.2.1WeaklyCoupledCondition1.2.2DebyeShielding1.2.3LangmuirOscillation1.2.4CoulombCollision1.2.5AnisotropyofMagneto-Plasmas1.3MotionofIndividualParticlesinMagneticFields1.3.1GyratingMotioninaUniformField1.3.2DriftMotioninaNonuniformField1.3.3AdiabaticInvariants1.4KineticDescriptionofPlasmas1.4.1ExactKlimontovichEquation1.4.2MeanKineticEquations1.4.3Drift-andGyro-KineticEquations1.5Two-FluidDescriptionofPlasmas1.5.1VelocityMomentEquations1.5.2BriginskiiEquationsforFluidClosure1.5.3AdiabaticandBi-adiabaticEquations1.6MHDDescriptionofPlasmas1.6.1MHDEquations1.6.2GeneralizedOhmLaw1.6.3IdealMHD:MagneticFrozen1.6.4ResistiveMHD:MagneticDiffusion1.6.5HallMHD:AnisotropicOhmLaw1.6.6MicrophysicsofMHDDynamicsChapter2BasicCharacteristics:fromAWstoKAWs2.1Introduction2.2AWsBasedonMHDDescription2.2.1AWsintheIdealMHD2.2.2BasicCharacteristicsofAWs2.2.3EffectofResistiveTermonAWs2.2.4EffectofHallTermonAWs2.3KAWsBasedonTwo-FluidDecription2.3.1GeneralTwo-fluidDispersionEquation2.3.2Low-frequencyDispersionRelations2.3.3KAW:Short-wavelengthModification2.4AFewCrucialCharacteristicsofKAWs2.4.1Low-βCases:KineticandInertialLimits2.4.2AnisotropicPropagation2.4.3ElectromagneticPolarizationStatesChapter3KAWInstabilitiesandGenerationMechanisms...3.1Introduction3.2Low-FrequencyKineticDispersionEquation3.2.1GeneralDispersionEquation3.2.2Bi-MaxwellDistribution3.2.3Low-frequencyApproximation3.2.4MHDLimit:Fire-HoseandMirrorInstabilities3.3AnisotropicTemperatureInstabilities3.3.1AnisotropicDispersionEquation3.3.2ClassicLimitwithZeroIonGyroradius3.3.3KineticEffectwithFiniteIonGyroradius3.4Field-AlignedCurrentInstabilities3.4.1IsotropicPlasmaCase3.4.2AnisotropicPlasmaCase3.5IonBeamIntabilitiy3.5.1Beam-returnCurrentSystems3.5.2IonBeamInstability3.6OtherGenerationMechanisms3.6.1ResonantModeConversionofAWs3.6.2ParametricDecayDuetoWave-waveCoupling3.6.3AnisotropicCascadeofMHDTurbulenceChapter4NonlinearSolitaryStructuresofKAWs4.1Introduction4.2SagdeevEquationofOne-DimentionalSKAWs4.2.1BasicEquationandLinearDispersionRelation4.2.2SagdeevEquationandSagdeevPotential4.3ExistentCriterionandParameterDependence4.3.1CriterionforExistenceofSKAWs4.3.2ParametricDependenceofSKAWs4.4AnalyticSolutionsoftheSagdeevEquation4.4.1AnalyticSolutionintheInertialLimit4.4.2KdVSolitoninSmall-amplitudeLimit4.5Two-DimensionalSKAWs:BasicPhysicsModel4.5.1BasicEquations4.5.2DipoleVortexSolutions4.6Two-DimentionalSKAWs:DipoleVortexStructure4.6.1DipoleDensitySolitoninaDipoleVortex4.6.2ElectromagneticRotationinaDipoleVortexChapter5KAWsinComplexPlasmas5.1Introduction5.2KAWsinMulti-IonPlasmas5.2.1SlowingofKAWsDuetoHeavyIons5.2.2CouplingofKAWstoIon-ionHybridWaves5.2.3EffectsofFiniteIonTemperaturesonKAWs5.2.4SKAWsinMulti-ionPlasmas5.3KAWsinPartlyIonizedPlasmas5.3.1ElasticandInelasticCollisions5.3.2DriftInstabilityviaElasticCollisions5.3.3IonizationInstabilityviaInelasticCollisions5.4KAWsinDustyPlasmas5.4.1BasicProcessesandProperties5.4.2ElectrostaticWavesinDustyPlasmas5.4.3KAWsinDustyPlasmasChapter6ExperimentalStudiesofKAWs6.1Introduction6.2EarlyLaboratoryExperimentsofAWs6.3LaboratoryExperimentsofKAWs6.3.1ModeConversionofKAWsandPlasmaHeating6.3.2DispersionRelationandBasicPropertiesofKAWs6.3.3ExcitationofKAWsandNonlinearPhenomena6.4SpaceinsituIdentificationofKAWs6.4.1EarlyPrimaryObservationsofKAWs6.4.2RefinedIdentificationsofSKAWs6.4.3DipoleDensitySolitonsandTwo-dimensionalSKAWs6.4.4IdentificationofKAWTurbulentSpectra6.5SpaceObservationsvsLaboratoryExperiments6.6SolarObservedEvidenceofKAWsChapter7AuroralElectronAccelerationbyDSKAWs7.1Introduction7.2AuroraandAuroralElectronAcceleration7.3DSKAWsandTheirShock-likeStructures7.3.1BasicPhysicsModel7.3.2ElectronField-alignedAccelerationbyDKAW7.4AuroralAccelerationMechanismbyDSKAW7.4.1EmpiricalModelofAuroralPlasma7.4.2AuroralElectronAccelerationbyDSKAWs7.4.3ComparisonwithObservationsChapter8AnomalousEnergizationofCoronalIonsbyKAWs8.1Introduction8.2AnomalousEnergizationPhenomenaofCoronalIons8.3EmpiricalModelofCoronalHoleStructures8.3.1RadialModel8.3.2TransverseModel8.4PhysicalModelforHeavyIon-SKAWInteraction8.4.1NonlinearGenerationofKAWsinCoronalHoles8.4.2HeavyIon-SKAWInteraction8.5EnergizationofHeavyIonsinSKAWs8.6ApplicationtoEnergizationofCoronalIonsChapter9NonuniformHeatingofCoronalPlasmasbyKAWs9.1Introduction9.2MagneticStructureandHeatingProblemoftheSolarCorona9.3UpperChromosphericHeatingbyOhmicDissipationofKAWs9.3.1SunspotUpper-chromosphericHeatingProblem9.3.2OhmicDissipationofKAWsbyCoulombCollision9.3.3Upper-chromosphericHeatingbyKAWs9.4CoronalLoopHeatingbyLandauDampingofKAWs9.4.1CoronalLoopsandTheirHeatingProblem9.4.2LandauDampingofKAWs9.4.3CoronalLoopHeatingbyKAWs9.5CoronalPlumeHeatingbyLandauDampingofKAWs9.5.1CoronalPlumesandTheirHeatingProblem9.5.2CoronalPlumeHeatingbyKAWs9.6AUnifiedScenariofortheCoronalHeating?Chapter10PerspectivesofKAWs10.1GenerationandDissipationofKAWs10.2TurbulentCascade:fromAWstoKAWs10.3Magneto-PlasmaFilamentsbyKAWs10.4ParticleEnergizationbyKAWsReferencesIndex
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开播时间:09月02日 10:30