Buch, Englisch, 808 Seiten, Format (B × H): 163 mm x 236 mm, Gewicht: 1250 g
Buch, Englisch, 808 Seiten, Format (B × H): 163 mm x 236 mm, Gewicht: 1250 g
Reihe: Series in Optics and Optoelectronics
ISBN: 978-1-4200-7302-7
Verlag: CRC Press
This new edition of a bestseller retains most of the descriptions of older design techniques because of their importance in understanding how designs work. However, this edition includes a substantial amount of new material as well. A new chapter on color takes into account the increasing importance of color in optical coatings. In addition, a new section discusses the effects of gain in optical coatings.
This comprehensive yet accessible book continues to offer valuable insight into the principles, techniques, and processes of successful coating design. It provides the sound foundation required to make further advances in the field.
Zielgruppe
Researchers and graduate students in optics, optoelectronics, optical engineering, and optical materials.
Autoren/Hrsg.
Weitere Infos & Material
IntroductionEarly HistoryThin-Film Filters
Basic TheoryMaxwell’s Equations and Plane Electromagnetic WavesThe Simple BoundaryThe Reflectance of a Thin FilmThe Reflectance of an Assembly of Thin FilmsReflectance, Transmittance, and AbsorptanceUnitsSummary of Important ResultsPotential TransmittanceA Theorem on the Transmittance of a Thin-Film AssemblyCoherenceIncoherent Reflection at Two or More Surfaces
Theoretical TechniquesQuarter- and Half-Wave Optical ThicknessesAdmittance LociElectric Field and Losses in the Admittance DiagramThe Vector MethodThe Herpin IndexAlternative Method of CalculationSmith’s Method of Multilayer DesignThe Smith ChartReflection Circle Diagrams
Antireflection CoatingsAntireflection Coatings on High-Index SubstratesAntireflection Coatings on Low-Index SubstratesEquivalent LayersAntireflection Coatings for Two ZerosAntireflection Coatings for the Visible and the InfraredInhomogeneous LayersFurther Information
Neutral Mirrors and Beam SplittersHigh-Reflectance Mirror CoatingsNeutral Beam SplittersNeutral-Density Filters
Multilayer High-Reflectance CoatingsThe Fabry–Perot InterferometerMultilayer Dielectric CoatingsLosses
Edge FiltersThin-Film Absorption FiltersInterference Edge Filters
Band-Pass FiltersBroadband-Pass FiltersNarrowband FiltersMultiple Cavity FiltersHigher Performance in Multiple-Cavity FiltersPhase Dispersion FilterMultiple Cavity Metal–Dielectric FiltersMeasured Filter Performance
Tilted CoatingsModified Admittances and the Tilted Admittance DiagramApplication of the Admittance DiagramPolarizersNonpolarizing CoatingsAntireflection CoatingsRetardersOptical Tunnel Filters
Color in Optical CoatingsColor DefinitionThe 1964 Supplementary Colorimetric ObserverMetamerismOther Color SpacesHue and ChromaBrightness and Optimal StimuliColored Fringes
Production Methods and Thin-Film MaterialsThe Production of Thin FilmsMeasurement of the Optical PropertiesMeasurement of the Mechanical PropertiesToxicitySummary of Some Properties of Common Materials
Factors Affecting Layer and Coating PropertiesMicrostructure and Thin-Film BehaviorSensitivity to Contamination
Layer Uniformity and Thickness MonitoringUniformitySubstrate PreparationThickness Monitoring and ControlTolerances
Specification of Filters and Environmental EffectsOptical PropertiesPhysical Properties
System Considerations: Applications of Filters and CoatingsPotential Energy Grasp of Interference FiltersNarrowband Filters in AstronomyAtmospheric Temperature SoundingOrder Sorting Filters for Grating SpectrometersGlare Suppression Filters and CoatingsSome Coatings Involving Metal Layers
Other TopicsRugate FiltersUltrafast CoatingsAutomatic MethodsGain in Optical CoatingsPhotonic Crystals
Characteristics of Thin-Film Dielectric Materials
Bibliography
Index
References appear at the end of each chapter.