《非線性光學(第3版)》是世界圖書出版公司2010年出版的圖書,作者是堡德。
基本介紹
- 中文名:非線性光學(第3版)
- 作者:堡德
- ISBN:9787510024016
- 出版社:世界圖書出版公司
- 出版時間:2010年
內容簡介,作品目錄,
內容簡介
Ithasbeenagreatpleasureformetohavepreparedthelatesteditionofmybookonnonlinearoptics.Myintrigueinthesubjectmatterofthisbookisasstrongasitwaswhenthefirsteditionwaspublishedin1992.
作品目錄
PrefacetotheThirdEdition
PrefacetotheSecondEdition
PrefacetotheFirstEdition
1.TheNonlinearOpticalSusceptibility
1.1.IntroductiontoNonlinearOptics
1.2.DescriptionsofNonlinearOpticalProcesses
1.3.FormalDefinitionoftheNonlinearSusceptibility
1.4.NonlinearSusceptibilityofaClassicalAnharmonicOscillator
1.5.PropertiesoftheNonlinearSusceptibility
1.6.Time-DomainDescriptionofOpticalNonlinearities
1.7.Kramers-KronigRelationsinLinearandNonlinearOptics
Problems
References
2.Wave-EquationDescriptionofNonlinearOpticalInteractions
2.1.TheWaveEquationforNonlinearOpticalMedia
2.2.TheCoupled-WaveEquationsforSum-FrequencyGeneration
2.3.PhaseMatching
2.4.Quasi-Phase-Matching
2.5.TheManley-RoweRelations
2.6.Sum-FrequencyGeneration
2.7.Second-HarmonicGeneration
2.8.Difference-FrequencyGenerationandParametricAmplification
2.9.OpticalParametricOscillators
2.10.NonlinearOpticalInteractionswithFocusedGaussianBeams
2.11.NonlinearOpticsatanInterface
Problems
References
3.Quantum-MechanicalTheoryoftheNonlinearOpticalSusceptibility
3.1.Introduction
3.2.SchriSdingerCalculationofNonlinearOpticalSusceptibility
3.3.DensityMatrixFormulationofQuantumMechanics
3.4.PerturbationSolutionoftheDensityMatrixEquationofMotion
3.5.DensityMatrixCalculationoftheLinearSusceptibility
3.6.DensityMatrixCalculationoftheSecond-OrderSusceptibility
3.7.DensityMatrixCalculationoftheThird-OrderSusceptibility
3.8.ElectromagneticallyInducedTransparency
3.9.Local-FieldCorrectionstotheNonlinearOpticalSusceptibility
Problems
References
4.TheIntensity-DependentRefractiveIndex
4.1.DescriptionsoftheIntensity-DependentRefractiveIndex
4.2.TensorNatureoftheThird-OrderSusceptibility
4.3.NonresonantElectronicNonlinearities
4.4.NonlinearitiesDuetoMolecularOrientation
4.5.ThermalNonlinearOpticalEffects
4.6.SemiconductorNonlinearities
4.7.ConcludingRemarksReferences
5.MolecularOriginoftheNonlinearOpticalResponse
5.1.NonlinearSusceptibilitiesCalculatedUsingTime-IndependentPerturbationTheory
5.2.SemiempiricalModelsoftheNonlinearOpticalSusceptibility
ModelofBoling,Glass,andOwyoung
5.3.NonlinearOpticalPropertiesofConjugatedPolymers
5.4.Bond-ChargeModelofNonlinearOpticalProperties
5.5.NonlinearOpticsofChiralMedia
5.6.NonlinearOpticsofLiquidCrystals
Problems
References
6.NonlinearOpticsintheTwo-LevelApproximation
6.1.Introduction
6.2.DensityMatrixEquationsofMotionforaTwo-LevelAtom
6.3.Steady-StateResponseofaTwo-LevelAtomtoaMonochromaticField
6.4.OpticalBlochEquations
6.5.RabiOscillationsandDressedAtomicStates
6.6.OpticalWaveMixinginTwo-LevelSystems
Problems
References
7.ProcessesResultingfromtheIntensity-DependentRefractiveIndex
7.1.Self-FocusingofLightandOtherSelf-ActionEffects
7.2.OpticalPhaseConjugation
7.3.OpticalBistabilityandOpticalSwitching
7.4.Two-BeamCoupling
7.5.PulsePropagationandTemporalSolitons
Problems
References
8.SpontaneousLightScatteringandAcoustooptics
8.1.FeaturesofSpontaneousLightScattering
8.2.MicroscopicTheoryofLightScattering
8.3.ThermodynamicTheoryofScalarLightScattering
8.4.Acoustooptics
Problems
References
9.StimulatedBrillouinandStimulatedRayleighScattering
9.1.StimulatedScatteringProcesses
9.2.Electrostriction
9.3.StimulatedBrillouinScattering(InducedbyElectrostriction)
9.4.PhaseConjugationbyStimulatedBrillouinScattering
9.5.StimulatedBrillouinScatteringinGases
9.6.StimulatedBrillouinandStimulatedRayleighScattering
Problems
References
10.StimulatedRamanScatteringandStimulatedRayleigh-WingScattering
10.1.TheSpontaneousRamanEffect
10.2.SpontaneousversusStimulatedRamanScattering
10.3.StimulatedRamanScatteringDescribedbytheNonlinearPolarization
10.4.Stokes-Anti-StokesCouplinginStimulatedRamanScattering
10.5.CoherentAnti-StokesRamanScattering
10.6.StimulatedRayleigh-WingScattering
Problems
References
11.TheElectroopticandPhotorefractiveEffects
11.1.IntroductiontotheElectroopticEffect
11.2.LinearElectroopticEffect
11.3.ElectroopticModulators
11.4.IntroductiontothePhotorefractiveEffect
11.5.PhotorefractiveEquationsofKuldatarevetal.
11.6.Two-BeamCouplinginPhotorefractiveMaterials
11.7.Four-WaveMixinginPhotorefractiveMaterials
Problems
References
12.OpticallyInducedDamageandMultiphotonAbsorption
12.1.IntroductiontoOpticalDamage
12.2.Avalanche-BreakdownModel
12.3.InfluenceofLaserPulseDuration
12.4.DirectPhotoionization
12.5.MultiphotonAbsorptionandMultiphotonIonization
Problems
References
13.UltrafastandIntense-FieldNonlinearOptics
13.1.Introduction
13.2.UltrashortPulsePropagationEquation
13.3.InterpretationoftheUltrashort-PulsePropagationEquation
13.4.Intense-FieldNonlinearOptics
13.5.MotionofaFreeElectroninaLaserField
13.6.High-HarmonicGeneration
13.7.NonlinearOpticsofPlasmasandRelativisticNonlinearOptics
13.8.NonlinearQuantumElectrodynamics
Problem
References
Appendices
A.TheSISystemofUnits
Furtherreading
B.TheGaussianSystemofUnits
Furtherreading
C.SystemsofUnitsinNonlinearOptics
D.RelationshipbetweenIntensityandFieldStrength
E.PhysicalConstants
Index
