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[美]李 著 / 复旦大学出版社 / 2006-11 / 平装
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研究生前沿教材书系:加速器物理学(第2版)(英文影印版)
这本教科书是作者根据自己在印第安纳大学给研究生讲授《加速器物理学》的上课笔记和给美国粒子加速器学院讲授的两门课的相关讲稿基础上写成的。自1999年第一版问世以来,被广泛用作教材。第二版除了对原书作必要的修改之外,增补了自由电子激光器(FEL)和束线ˉ束线相互作用的第五章。
加速器物理学是一门高度综合的课程,涉及荷电粒子在特殊设计的电磁场中运动并形成特殊用途束线的物理原理和技术应用的各个领域。《加速器物理学》第一章介绍各种类型加速器的基本原理和发展历史;第二章讲述回旋加速器的横向运动及其物理处理方法;第三章介绍同步辐射加速器和线型加速器的原理和设计方法;第四章讲述同步辐射现象和低辐射电子存储环的设计原理。《加速器物理学》的最后部分,提出了开发第四代光源的前景。
《加速器物理学》在每节末尾都专门设计了练习题,为了使解题变得较为容易,作者有意把题目细分为很多小题。这些题目的解题思路和最终结果除了使读者深入了解基本原理之外,还可使读者直接进入相关的设计领域。
S.Y.Lee,美国印第安纳大学教授、美国物理学会集束物理学分会(DivisonofPhysicsofBeams)会员。长期从事加速器物理的教学和研究工作。研究工作包括集束冷却技术,集束的非线性动力学特征,同步辐射的自旋动力学,空间电荷对集束性能的影响,加速器设计原理,电子存储环的设计,集束不稳定的原因,自由电子激光器,集束的控制原理和技术,加速器的应用。多年来除了给本科生讲授加速器物理和辅导加速器实验之外,主要负责研究生的教学工作。
曾担任美国粒子加速器学院(TheUnitedStatesParticleAcceleratorSchool)院长,美国物理学会集束分会经济委员会成员,物理学会提名委员会成员,粒子加速器理事会项目评估委员会成员。
出版著作有:AcceleratorPhysics、SpinDynamicsandSnakesinSynchrotrons,SpaceChargeDominatedBeamsandApplicationsofHighBrightnessBeams,BeamMeasurement等。
ContentsPrefacePrefacetothefirstedition1IntroductionIHistoricalDevelopmentsI.1NaturalAcceleratorsI.2ElectrostaticAcceleratorsI.3InductionAcceleratorsI.4Radio-Frequency(RF)AcceleratorsI.5CollidersandStorageRingsI.6SynchrotronRadiationStorageRingsIILayoutandComponentsofAcceleratorsII.1AccelerationCavitiesII.2AcceleratorMagnetsII.3OtherImportantComponentsIIIAcceleratorApplicationsIII.1HighEnergyandNuclearPhysicsIII.2Solid-StateandCondensed-MatterPhysicsIII.3OtherApplicationsExercise2TransverseMotionIHamiltonianforParticleMotioninAcceleratorsI.1HamiltonianinFrenet-SerretCoordinateSystemI.2MagneticFieldinFrenet-SerretCoordinateSystemI.3EquationofBetatronMotionI.4ParticleMotioninDipoleandQuadrupoleMagnetsExerciseIILinearBetatronMotionII.1TransferMatrixandStabilityofBetatronMotionII.2Courant-SnyderParametrizationII.3FloquetTransformationII.4Action-AngleVariableandFloquetTransformationII.5Courant-SnyderInvariantandEmittanceII.6StabilityofBetatronMotion:AFODOCellExampleII.7SymplecticConditionII.8EffectofSpace-ChargeForceonBetatronMotionExerciseIIIEffectofLinearMagnetImperfectionsIII.1Closed-OrbitDistortionduetoDipoleFieldErrorsIII.2ExtendedMatrixMethodfortheClosedOrbitIII.3ApplicationofDipoleFieldErrorIII.4QuadrupoleField(Gradient)ErrorsIII.5BasicBeamObservationofTransverseMotionIII.6ApplicationofquadrupolefielderrorIII.7TransverseSpectraIII.8BeamInjectionandExtractionIII.9MechanismsofemittancedilutionanddiffusionExerciseIVOff-MomentumOrbitIV.1DispersionFunctionIV.2Η-Function,Action,andIntegralRepresentationIV.3MomentumCompactionFactorIV.4DispersionSuppressionandDispersionMatchingIV.5AchromatTransportSystemsIV.6TransportNotationIV.7ExperimentalMeasurementsofDispersionFunctionIV.8TransitionEnergyManipulationA.γTjumpschemesB.Flexiblemomentumcompaction(FMC)latticesC.OthersimilarFMCmodulesD.FMCindouble-bend(DB)latticesIV.9Minimum(Η)ModulesExerciseVChromaticAberrationV.1ChromaticityMeasurementandCorrectionV.2NonlinearEffectsofChromaticSextupolesV.3ChromaticAberrationandCorrectionV.4LatticeDesignStrategyExerciseVILinearCouplingVI.1TheLinearCouplingHamiltonianVI.2EffectsofanisolatedLinearCouplingResonanceVI.3ExperimentalMeasurementofLinearCouplingVI.4LinearCouplingCorrectionwithSkewQuadrupolesVI.5LinearCouplingUsingTransferMatrixFormalismExerciseVIINonlinearResonancesVII.1NonlinearResonancesDrivenbySextupolesVII.2Higher-OrderResonancesVII.3NonlinearDetuningfromSextupolesVII.4BetatronTunesandNonlinearResonancesExerciseVIIICollectiveInstabilitiesandLandauDampingVIII.1ImpedanceVIII.2TransverseWaveModesVIII.3EffectofWakefieldonTransverseWaveVIII.4FrequencySpreadandLandauDampingExerciseIXSynchro-BetatronHamiltonianExercise3SynchrotronMotionILongitudinalEquationofMotionI.1TheSynchrotronHamiltonianI.2TheSynchrotronMappingEquationI.3EvolutionofSynchrotronPhase-SpaceEllipseI.4SomePracticalExamplesI.5SummaryofSynchrotronEquationsofMotionExerciseIIAdiabaticSynchrotronMotionII.1FixedPointsII.2BucketAreaII.3Small-AmplitudeOscillationsandBunchAreaII.4Small-AmplitudeSynchrotronMotionattheUFPII.5SynchrotronMotionforLarge-AmplitudeParticlesII.6ExperimentalTrackingofSynchrotronMotionExerciseIIIRFPhaseandVoltageModulationsIII.1NormalizedPhase-SpaceCoordinatesIII.2RFPhaseModulationandParametricResonancesIII.3MeasurementsofSynchrotronPhaseModulationIII.4EffectsofDipoleFieldModulationIII.5RFVoltageModulationIII.6MeasurementofRFVoltageModulationExerciseIVNonadiabaticandNonlinearSynchrotronMotionIV.1LinearSynchrotronMotionNearTransitionEnergyIV.2NonlinearSynchrotronMotionatγ≈γTIV.3BeamManipulationNearTransitionEnergyIV.4SynchrotronMotionwithNonlinearPhaseSlipFactorIV.5TheQIDynamicalSystemsExerciseVBeamManipulationinSynchrotronPhaseSpaceV.1RFFrequencyRequirementsV.2CaptureandAccelerationofProtonandIonBeamsV.3BunchCompressionandRotationV.4DebunchingV.5BeamStackingandPhaseDisplacementAccelerationV.6DoublerfSystemsV.7TheBarrierRFBucketExerciseVIFundamentalsofRFSystemsVI.1PillboxCavityVI.2LowFrequencyCoaxialCavitiesVI.3BeamLoadingVI.4BeamLoadingCompensationandRobinsonInstabilityExerciseVIILongitudinalCollectiveInstabilitiesVII.1LongitudinalSpectraVII.2CollectiveMicrowaveInstabilityinCoastingBeamsVII.3LongitudinalImpedanceVII.4MicrowaveSingleBunchInstabilityExerciseVIIIIntroductiontoLinearAcceleratorsVIII.1HistoricalMilestonesVIII.2FundamentalPropertiesofAcceleratingStructuresA.TransittimefactorB.ShuntimpedanceC.ThequalityfactorQVIII.3ParticleAccelerationbyEMWavesA.EMwavesinacylindricalwaveguideB.PhasevelocityandgroupvelocityC.TMmodesinacylindricalpillboxcavityD.A1varezstructureE.LoadedwaveguidechainandthespaceharmonicsF.Standingwave,travelingwave,andcoupledcavitylinacsG.HOMsVIII.4LongitudinalParticleDynamicsinaLinacVIII.5TransverseBeamDynamicsinaLinacExercise4PhysicsofElectronStorageRingsIFieldsofaMovingChargedParticleI.1Non-relativisticReductionI.2RadiationFieldforParticlesatRelativisticVelocitiesI.3FrequencyandAngularDistributionI.4QuantumFluctuationExerciseIIRadiationDampingandExcitationII.1DampingofSynchrotronMotionII.2DampingofBetatronMotionII.3DampingRateAdjustmentII.4RadiationExcitationandEquilibriumEnergySpreadII.5RadialBunchWidthandDistributionFunctionII.6VerticalBeamWidthII.7RadiationIntegralsII.8BeamLifetimeExerciseIIIEmittanceinElectronStorageRingsIII.1EmittanceofSynchrotronRadiationLatticesA.FODOcelllatticeB.Double-bendachromat(Chasman-Greenlattice)C.Minimum(Η)-functionlatticeD.MinimizingemittanceinacombinedfunctionDBAE.Three-bendachromatIII.2InsertionDevicesIII.3BeamPhysicsofHighBrightnessStorageRingsExercise5SpecialTopicsinBeamPhysicsIFreeElectronLaser(FEL)I.1SmallSignalRegimeI.2InteractionoftheRadiationFieldwiththeBeamI.3ExperimentsonHighGainFELGenerationExerciseIIBeam-BeamInteractionII.1Thebeam-beamforceII.2TheCoherentBeam-BeamEffectsII.3NonlinearBeam-BeamEffectsII.4ExperimentalObservationsandNumericalSimulationsII.5Beam-BeamInteractioninLinearCollidersExerciseABasicsofClassicalMechanicsIHamiltonianDynamicsI.1CanonicalTransformationsI.2FixedPointsI.3PoissonBracketI.4LiouvilleTheoremI.5FloquetTheoremIIStochasticBeamDynamicsII.1CentralLimitTheoremII.2LangevinEquationofMotionII.3StochasticIntegrationMethodsII.4Fokker-PlanckEquationBNumericalMethodsandPhysicalConstantsIFourierTransform1.1NyquistSamplingTheorem1.2DiscreteFourierTransform1.3DigitalFiltering1.4SomeSimpleFourierTransformsIIModelIndependentAnalysisII.1ModelIndependentAnalysisII.2IndependentComponentAnalysisII.3AcceleratorModelingIIICauchyTheoremandtheDispersionRelationIII.1CauchyIntegralFormulaIII.2DispersionRelationIVUsefulHandyFormulasIV.1GeneratingfunctionsfortheBesselfunctionsIV.2TheHankeltransformIV.3ThecomplexerrorfunctionIV.4AmultipoleexpansionformulaIV.5CylindricalCoordinatesIV.6GaussandStokestheoremsIV.7VectorOperationVMaxwellsequationsV.1LorentzTransformationofEMfieldsV.2CylindricalwaveguidesV.3VoltageStandingWaveRatioVIPhysicalPropertiesandConstantsBibliographyIndexSymbolsandNotations
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