光电子光谱学:原理和应用(第3版)
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258
九品
仅1件
作者胡夫尼 著
出版社世界图书出版公司
出版时间2009-03
版次3
装帧平装
货号h01
上书时间2023-08-29
商品详情
- 品相描述:九品
图书标准信息
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作者
胡夫尼 著
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出版社
世界图书出版公司
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出版时间
2009-03
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版次
3
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ISBN
9787506292771
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定价
88.00元
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装帧
平装
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开本
24开
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纸张
胶版纸
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页数
662页
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正文语种
英语
- 【内容简介】
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SincethecompletionofthemanuscriptforthefirsteditionofPhotoelectronSpectroscopy,thefieldhasundergoneasteadygrowth.Firstly,thetheoryhasbeenrefinedandcondensedintoamanageableform.Secondlytwoimportantexperimentaldevelopmentshaveoccurred.Theresolutionthatcanbeobtainedisnowoftheorderof3meV,whichcorre-spondsapproximatelytoanenergyof30kBK.Thismeansthatphotoelectronspectroscopycannowobtaindatawithanaccuracysimilartothatachievedinstandardthermodynamicexperiments(suchasspecificheatexperiments),thusfacilitatingadirectcomparisonofdatafromthetwodifferenttypesofexperiment.ThesecondimportantexperimentaladvanceisthatonecannowreadilymeasureelectronenergydistributionsoverasolidangleofalmostThisyieldsvaluableinformationwhenevertheseelectronenergydistributionshaveanisotropies.
- 【目录】
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1.IntroductionandBasicPrinciples
1.1HistoricalDevelopment
1.2TheElectronMeanFreePath
1.3PhotoelectronSpectroscopyandInversePhotoelectronSpectroscopy
1.4ExperimentalAspects
1.5VeryHighResolution
1.6TheTheoryofPhotoemission
1.6.1Core-LevelPhotoemission
1.6.2Valence-StatePhotoemission
1.6.3Three-StepandOne-StepConsiderations
1.7DeviationsfromtheSimpleTheoryofPhotoemission
References
2.CoreLevelsandFinalStates
2.1Core-LevelBindingEnergiesinAtomsandMolecules
2.1.1TheEquivalent-CoreApproximation
2.1.2ChemicalShifts
2.2Core-LevelBindingEnergiesinSolids
2.2.1TheBorn-HaberCycleinInsulators
2.2.2TheoryofBindingEnergies
2.2.3DeterminationofBindingEnergiesandChemicalShiftsfromThermodynamicData
2.3CorePolarization
2.4Final-StateMultipletsinRare-EarthValenceBands
2.5VibrationalSideBands
2.6CoreLevelsofAdsorbedMolecules
2.7QuantitativeChemicalAnalysisfromCore-LevelIntensities
References
3.Charge-ExcitationFinalStates:Satellites
3.1CopperDihalides;3dTransitionMetalCompounds
3.1.1CharacterizationofaSatellite
3.1.2AnalysisofCharge-TransferSatellites
3.1.3Non-localScreening
3.2The6-eVSatelliteinNickel
3.2.1ResonancePhotoemission
3.2.2SatellitesinOtherMetals
3.3TheGunnarsson-Sch6nhammerTheory
3.4PhotoemissionSignalsandNarrowBandsinMetals
References
4.ContinuousSatellitesandPlasmonSatellites:XPSPhotoemissioninNearlyFreeElectronSystems
4.1Theory
4.1.1General
4.1.2Core-LineShape
4.1.3IntrinsicPlasmons
4.1.4FxtrinsicFAectronScattering:PlasmonsandBackground
4.1.5TheTotalPhotoelectronSpectrum
4.2ExperimentalResults
4.2.1TheCoreLineWithoutPlasmons
4.2.2Core-LevelSpectraIncludingPlasmoas
4.2.3Valence-BandSpectraoftheSimpleMetals
4.2.4SimpleMetals:AGeneralComment
4.3TheBackgroundCorrection
References
5.ValenceOrbitalsinSimpleMoleculesandInsulatingSolids
5.1UPSSpectraofMonatomicGases
5.2PhotoelectronSpectraofDiatomicMolecules
5.3BindingEnergyoftheH2Molecule
5.4HydridesIsoelectronicwithNobleGases
Neon(Ne)
HydrogenFluoride(HF)
Water(H2O)
Ammonia(NH3)
Methane(CH4)
5.5SpectraoftheAlkaliHMides
5.6TransitionMetalDihalides
5.7Hydrocarbons
5.7.1GuidelinesfortheInterpretationofSpectrafromFreeMolecules
5.7.2LinearPolymers
5.8InsulatingSolidswithValencedElectrons
5.8.1TheNiOProblem
5.8.2MortInsulation
5.8.3TheMetal-InsulatorTransition;theRatiooftheCorrelationEnergyandtheBandwidth;Doping
5.8.4BandStructuresofTransitionMetalCompounds
5.9High—TemperatureSuperconductors
5.9.1valence-BandElectronicStructure;PolycrystallineSamples
5.9.2DispersionRelationsinHighTemperatureSuperconductors;SingleCrystals
5.9.3TheSuperconductingGap
5.9.4SymmetryoftheOrderParameterintheHigh-TemperatureSuDerconductors
5.9.5Core—LevelShifts
5.10TheFermiLiquidandtheLuttingerLiquid
5.11AdsorbedMolecules
5.11.1Outline
5.11.2COonMetalSurfaces
References
6.PhotoemissionofValenceElectronsfroillMetallicSolidsintheOHe-ElectronApproximation
6.1TheoryofPhotoemission:ASummaryoftheThree-StepModel
6.2DiscussionofthePhotocurrent
6.2.1KinematicsofInternalPhotoemissioninaPolycrystallineSample
6.2.2PrimaryandSecondaryConesinthePhotoemissionfromaRealSolid
6.2.3Angle-IntegratedandAngle-ResolvedDataCollection
6.3PhotoemissionfromtheSemi—infiniteCrystal:TheInverseLEEDFormalism
6.3.1BandStructureRegime
6.3.2XPSRegime
6.3.3SurfaceEmission
6.3.4One-StepCalculations
6.4ThermalEffects
6.5DipoleSelectionRulesforDirectOpticalTransitions
References
7.BandStructtireandAngular-ResolvedPhotoelectronSpectra
7.1Free-ElectronFinal—StateModel
7.2MethodsEmployingCalculatedBandStructures
7.3MethodsfortheAbsoluteDeterminationoftheCrystalMomentum
7.3.1TriangulationorEnergyCoincidenceMethod
7.3.2BraggPlaneMethod:VariationofExternalEmissionAngleatFixedPhotonFrequency(Disappearance/AppearanceAngleMethod
7.3.3BraggPlaneMethod:VariationofPhotonEnergyatFixedEmissionAngle(SymmetryMethod)
7.3.4TheSurfaceEmissionMethodandElectronDamping
7.3.5TheVery-Low-EnergyElectronDiffractionMethod
7.3.6TheFermiSurfaceMethod
7.3.7IntensitiesandTheirUseinBand-StructureDeterminations
7.3.8Summary
7.4ExperimentalBandStructures
7.4.1One-andTwo-DimensionalSystems
7.4.2Three-DimensionalSolids:MetalsandSemiconductors
7..4.3UPSBandStructuresandXPSDensityofStates
7.5AComment
References
8.SurfaceStates,SurfaceEffects
8.1TheoreticalConsiderations
8.2ExperimentalResultsonSurfaceStates
8.3Quantum-WellStates
8.4SurfaceCore-LevelShifts
References
9.InversePhotoelectronSpectroscopy
9.1SurfaceStates
9.2BulkBandStructures
9.3AdsorbedMolecules
References
10.Spin-PolarizedPhotoelectronSpectroscopy
10.1GeneralDescription
10.2ExamplesofSpin-PolarizedPhotoelectronSpectroscopy
10.3MagneticDichroism
References
11.PhotoelectronDiffraction
11.1Examples
11.2SubstratePhotoelectronDiffraction
11.3AdsorbatePhotoelectronDiffraction
11.4FermiSurfaceScans
References
Appendix
A.1TableofBindingEnergies
A.2SurfaceandBulkBrillouinZonesoftheThreeLow-IndexFacesofaFace—CenteredCubic(fcc)CrystalFace
A.3CompilationofWorkFunctions
References
Index
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