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Zusatztext "The study of LIDT theory! mechanisms! measurement! and amelioration has become a major research topic in the laser community. Laser-Induced Damage of Optical Materials will be an invaluable resource to users of industrial lasers as well as those involved in the design of optical systems where high-laser intensity is a factor. Graduate students will welcome this updated! compact! handy reference."-Optics & Photonics News! May 2005 Informationen zum Autor Wood, Roger M. Klappentext An understanding of damage mechanisms is fundamental to good design of laser products operating at high power. Laser Induced Damage of Optical Materials presents a comprehensive overview of the damage processes that occur at high laser intensity levels and explains how these factors limit the energy handling capabilities of optical systems. It reviews basic EM theory and optical effects, describes the damage mechanisms in effect when intensity levels are raised, covers the theory underlying the laser-induced damage thresholds of optical materials, and explores surfaces and sub-surface damage, coatings, measurement techniques, and special topics, such as scaling laws, fiber optics, and photodetectors. Zusammenfassung Laser Induced Damage of Optical Materials presents a comprehensive overview of the damage processes that occur at high laser intensity levels and explains how these factors limit the energy handling capabilities of optical systems. Inhaltsverzeichnis Glossary of TermsOPTICAL EFFECTS AT LOW POWER/ENERGY LEVELSIntroductionElectromagnetic TheoryDispoersionReflectance and TransmittanceReflectance and Absortance of a Conducting SurfaceMolecular PolarizabilityAbsorptionScatterAnalysis of R, T, A and S MeasurementsOPTICAL EFFECTS AT MEDIUM POWER/ENERGY LEVELSIntroductionAbsorptionRaman ScatteringBrillouin ScatteringHarmonic GenerationSelf-FocusingDAMAGE THEORYIntroductionThermal MechanismsDielectric ProcessesTesting RegimesTime of DamageDamage MorphologySURFACES AND SUB-SURFACESIntroductionSurfacesSub-SurfaceCOATINGSIntroductionCoating TechnologyMeasurements and Morphology of Coated SurfacesCoating DesignDamage to Dielectric CoatingsSPECIAL TOPICSAmbient Atmosphere/GasesLiquidsPhotodetectorsFibre OpticsScaling LawsSignificance of the Units of MeasurementMEASUREMENT TECHNIQUESIntroductionMeasurement of Power, Power Density, Energy, and Energy DensityLaser-Induced Damage ThresholdMeasurement of Optical CharacteristicsSurface Measurement and SpecificationOther MeasurementsAPPENDICESReferencesIndex...
