书籍详情
激光和电光学(影印版)
作者:C.C.Davis
出版社:北京世图
出版时间:2004-06-01
ISBN:9787506238731
定价:¥110.00
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内容简介
This comprehensive textbook provides a detailed introduction to the basic physics and engineering aspects of lasers, as well as to the design and operational principles of a wide range of optical systems and electro-optic devices. Throughout, full details of important derivations and results are given, as are many practical examples of the design, construction, and performance characteristics of different types of lasers and electro-optic devices. .The first half of the book deals with the fundamentals of laser physics, the characteristics of laser radiation, and discusses individual types of laser, including optically-pumped insulating crystal lasers, atomic gas lasers, molecular gas lasers, and semiconductor lasers. The second half deals with topics such as optical fibers, electro-optic and acousto-optic devices, the fundamentals of nonlinear optics, parametric processes, phase conjugation and optical bistability. The book concludes with chapters on optical detection, coherence theory, and the applications of lasers. .. Covering a broad range of topics in modem optical physics and engineering, this book will be invaluable to those taking undergraduate courses in laser physics, optoelectronics, photonics, and optical engineering. It Fill also act as a useful reference for graduate students and researchers in these fields. ...
作者简介
暂缺《激光和电光学(影印版)》作者简介
目录
Preface.
1SpontaneousandStimulatedTransitions
1.1Introduction
1.2Why'Quantum'Electronics?
1.3AmplificationatOpticalFrequencies
1.4TheRelationBetweenEnergyDensityandIntensity
1.5IntensityofaBeamofElectromagneticRadiationinTermsofPhotonFlux
1.6Black-BodyRadiation
1.7RelationBetweentheEinsteinAandBCoefficients
1.8TheEffectofLevelDegeneracy
1.9RatioofSpontaneousandStimulatedTransitions
1.10Problems
2OpticalFrequencyAmplifiers
2.1Introduction
2.2HomogeneousLineBroadening
2.3InhomogeneousBroadening
2.4OpticalFrequencyAmplificationwithaHomogeneouslyBroadenedTransition
2.5OpticalFrequencyAmplificationwithInhomogeneousBroadeningIncluded
2.6OpticalFrequencyOscillation-Saturation
2.7PowerOutputfromaLaserAmplifier
2.8TheElectronOscillatorModelofaRadiativeTransition
2.9WhatArethePhysicalSignificancesofX'andX"?
2.10TheClassicalOscillatorExplanationforStimulatedEmission
2.11Problems
3IntroductiontoTwoPracticalLaserSystems
3.1Introduction
3.2TheHelium-NeonLaser
4PassiveOpticalResonators
4.1Introduction
4.2PreliminaryConsiderationofOpticalResonators
4.3CalculationoftheEnergyStoredinanOpticalResonator
4.4QualityFactorofaResonatorinTermsoftheTransmissionofitsEndReflectors
4.5Fabry-PerotEtalonsandInterferometers
4.6InternalFieldStrength
4.7Fabry-PerotInterferometersasOpticalSpectrumAnalyzers
4.8Problems
5OpticalResonatorsContainingAmplifyingMedia
5.1Introduction
5.2Fabry-PerotResonatorContaininganAmplifyingMedium
5.3TheOscillationFrequency
5.4MultimodeLaserOscillation
5.5Mode-Beating
5.6ThePowerOutputofaLaser
5.7OptimumCoupling
5.8Problems
6LaserRadiation
6.1Introduction
6.2Diffraction
6.3TwoParallelNarrowSlits
6.4SingleSlit
6.5Two-DimensionalApertures
6.6LaserModes
6.7BeamDivergence
6.8LinewidthofLaserRadiation
6.9CoherenceProperties
6.10Interference
6.11Problems
7ControlofLaserOscillators
7.1Introduction
7.2MultimodeOperation
7.3SingleLongitudinalModeOperation
7.4Mode-Locking
7.5MethodsofMode-Locking
7.6PulseCompression
8OpticallyPumpedSolid-StateLasers
8.1Introduction
8.2OpticalPumpinginThree-andFour-LevelLasers
8.3PulsedVersusCWOperation
8.4ThresholdPopulationInversionandStimulatedEmissionCross-Section
8.5ParamagneticInnSolid-StateLasers
8.6TheNd:YAGLaser
8.7CWOperationoftheNd:YAGLaser
8.8TheNdJ+GlassLaser
8.9GeometricalArrangementsforOpticalPumping
8.10HighPowerPulsedSolid-StateLasers
8.11Diode-PumpedSolid-StateLasers
8.12RelaxationOscillations(Spiking)
8.13RateEquationsforRelaxationOscillation
8.14UndampedRelaxationOscillations
8.15GiantPulse(Q-Switched)Lasers
8.16TheoreticalDescriptionoftheQ-SwitchingProcess
8.17Problems
9GasLasers
9.1introduction
9.2OpticalPumping
9.3ElectronImpactExcitation
9.4TheArgonIonLaser
9.5PumpingSaturationinGasLaserSystems
9.6PulsedIonLasers
9.7CWIonLasers
9.8'Metal'VaporIonLasers
9.9GasDischargesforExcitingGasLasers
9.10RateEquationsforGasDischargeLasers
9.11Problems
10MolecularGasLasersI
10.1Introduction
10.2TheEnergyLevelsofMolecules
10.3VibrationsofaPolyatomicMolecule
10.4RotationalEnergyStates
10.5RotationalPopulations
10.6TheOverallEnergyStateofaMolecule
10.7TheCarbonDioxideLaser
10.8TheCarbonMonoxideLaser
10.9OtherGasDischargeMolecularLasers
11MolecularGasLasersII
11.1Introduction
11.2GasTransportLasers
11.3GasDynamicLasers
11.4HighPressurePulsedGasLasers
11.5UltravioletMolecularGasLasers
11.6PhotodissociationLasers
11.7CbemiealLasers
11.8Far-InfraredLasers
11.9Problems
12TunableLasers
12.1Introduction
12.2OrganicDyeLasers
12.3CalculationofThresholdPumpPowerinDyeLasers
12.4InorganicLiquidLasers
12.5FreeElectronLasers
12.6Problems
13SemiconductorLasers
13.1Introduction
13.2SemiconductorPhysicsBackground
13.3CarrierConcentrations
13.4IntrinsicandExtrinsicSemiconductors
13.5Thep-nJunction
13.6RecombinationandLuminescence
13.7Heterojunctions
13.8SemiconductorLasers
13.9TheGainCoefficientofaSemiconductorLaser
13.10ThresholdCurrentandPower-VoltageCharacteristics
13.1tLongitudinalandTransverseModes
13.12SemiconductorLaserStructures
13.13SurfaceEmittingLasers
13.14LaserDiodeArraysandBroadAreaLasers
13.15QuantumWellLasers
13.16Problems
14AnalysisofOpticalSystemsI
14.lIntroduction
14.2ThePropagationofRaysandWavesthroughlsotropicMedia
14.3SimpleReflectionandRefractionAnalysis
14.4ParaxialRayAnalysis..
14,5TheUseorImpedancesinOptics
14,6Problems
15AnalysisofOpticalSystemsII
15.1Introduction
15.2PeriodicOpticalSystems
15.3TheIdenticalThinLensWaveguide
15.4ThePropagationofRaysinMirrorResonators
15.5ThePropagationofRaysinIsotropicMedia
15.6ThePropagationofSphericalWaves
15.7Problems
16OpticsofGaussianBeams
16.1Introduction
16.2Beam-LikeSolutionsoftheWaveEquation
16.3HigherOrderModes
16.4TheTransformationofaGaussianBeambyaLens
16.5TransformationofGaussianBeamsbyGeneralOpticalSystems
16.6GaussianBeamsinLensWaveguides
16.7ThePropagationofaGaussianBeaminaMediumwithaQuadraticRefractiveIndexProfile
16.8ThePropagationofGaussianBeamsinMediawithSpatialGainorAbsorptionVariations
16.9PropagationinaMediumwithaParabolicGainProfile
16.10GaussianBeamsinPlaneandSphericalMirrorResonators
16.11SymmetricalResonators
16.12AnExampleofResonatorDesign
16.13DiffractionLosses
16.14UnstableResonators
16.15Problems
17OpticalFibersandWaveguides
17.1Introduction
17.2RayTheoryofCylindricalOpticalFibers
17.3RayTheoryofaDielectricSlabGuide
17.4TheGoos-HanchenShift
17.5WaveTheoryoftheDielectricSlabGuide
17.6P-WavesintheSlabGuide
17.7DispersionCurvesandFieldDistributionsinaSlabWaveguide
17.8S-WavesintheSlabGuide
17.9PracticalSlabGuideGeometries
17.10CylindricalDielectricWaveguides
17.11ModesandFieldPatterns
17.12TheWeakly-GuidingApproximation
17.13ModePatterns
17.14CutoffFrequencies
17.15MultimodeFibers
17.16FabricationofOpticalFibers
17.17DispersioninOpticalFibers
17.18Solitons
17.19Erbium-DopedFiberAmplifiers
17.20CouplingOpticalSourcesandDetectorstoFibers
17.21Problems
18OpticsofAnisotropieMedia
18.1Introduction
18.2TheDielectricTensor
18.3StoredElectromagneticEnergyinAnisotropicMedia
18.4PropagationofMonochromaticPlaneWavesinAnisotropicMedia
18.5TheTwoPossibleDirectionsofDforaGivenWaveVectorareOrthogonal
18.6AngularRelationshipsbetweenD,E,H,k,andthePoyntingVectorS
18.7TheIndicatfix
18.8UniaxialCrystals
18.9IndexSurfaces
18.10OtherSurfacesRelatedtotheUniaxiallndicatrix
18.11HuygenianConstructions
18.12Retardation
18.13BiaxialCrystals
18.14IntensityTransmissionThroughPolarizer/Waveplate/PolafizerCombin-ations
18.15TheJonesCalculus
18.16Problems
19TheElectro-OpticandAcousto-OpticEffectsandModulationofLightBeams
19.1IntroductiontotheElectro-OpticEffect
19.2TheLinearElectro-OpticEffect
19.3TheQuadraticElectro-OpticEffect
19.4LongitudinalElectro-OpticModulation
19.5TransverseElectro-opticModulation
19.6Electro-OpticAmplitudeModulation
19.7Electro-OpticPhaseModulatioh
19.8HighFrequencyWaveguideElectro-OpticModulators
19.9OtherHighFrequencyElectro-OpticDevices
19.10Electro-OpticBeamDeflectors
19.11Acousto-OpticModulators
19.12ApplicationsofAcousto-OpticModulators
19.13ConstructionandMaterialsforAcousto-OpticModulators
19.14Problems
20IntroductiontoNonlinearProcesses
20.1Introduction
20.2AnharmonicPotentialsandNonlinearPolarization
20.3NonlinearSusceptibilitiesandMixingCoefficients
20.4SecondHarmonicGeneration
20.5TheLinearElectro-OpticEffect
20.6ParametricandOtherNonlinearProcesses
20.7MacroscopicandMicroscopicSusceptibilities
20.8Problems
21WavePropagationinNonlinearMedia
21.1Introduction
21.2ElectromagneticWavesandNonlinearPolarization
21.3SecondHarmonicGeneration
21.4TheEffectiveNonlinearCoefficientdeff
21.5PhaseMatching
21.6BeamWalk-Offand90~PhaseMatching
21.7SecondHarmonicGenerationwithGaussianBeams
21.8Up-ConversionandDifference-FrequencyGeneration
21.9OpticalParametricAmplification
21.10ParametricOscillators
21.11ParametricOscillatorTuning
21.12PhaseConjugation
21.13OpticalBistability
21.14PracticalDetailsoftheUseofCrystalsforNonlinearApplications
21.15Problems
22DetectionofOpticalRadiation
22.1Introduction
22.2Noise
22.3DetectorPerformanceParameters
22.4PracticalCharacteristicsofOpticalDetectors
22.5ThermalDetectors
22.6DetectionLimitsforOpticalDetectorSystems
22.7CoherentDetection
22.8Bit-ErrorRate
23CoherenceTheory
23.1Introduction
23.2Square-LawDetectors
23.3TheAnalyticSignal
23.4CorrelationFunctions
23.5TemporalandSpatialCoherence
23.6SpatialCoherence
23.7SpatialCoherencewithanExtendedSource
23.8PropagationLawsofPartialCoherence
23.9PropagationfromaFinitePlaneSurface
23.10vanCinert-ZernikeTheorem
23.11SpatialCoherenceofaQuasi-Monochromatic,Uniform,SpatiallyIncoherentCircularSource
23.12IntensityCorrelationInterferometry
23.13IntensityFluctuations
23.14PhotonStatistics
23.15TheHanburyBrown-TwissInterferometer
23.16Hanbury-Brown-TwissExperimentwithPhotonCountCorrelations
24LaserApplications
24.1OpticalCommunicationSystems
24.2Holography
24.3LaserIsotopeSeparation
24.4LaserPlasmaGenerationandFusion
24.5MedicalApplicationsofLasers
Appendix1OpticalTerminology
Appendix2Theδ-Function
Appendix3Black-BodyRadiationFormulas
Appendix4RLCCircuit
Appendix5StorageandTransportofEnergybyElectromagneticFields
Appendix6TheReflectionandRefractionofaPlaneElectromagneticWaveattheBoundaryBetweenTwoIsotropicMediaofDifferentRefractiveIndex
Appendix7TheVectorDifferentialEquationforLightRays
Appendix8SymmetryPropertiesofCrystalsandthe32CrystalClasses
Appendix9Tensors
Appendix10BesselFunctionRelations
Appendix11Green'sFunctions
Appendix12RecommendedValuesofSomePhysicalConstants
Index...
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