Optical coating technology /

Baumeister organizes this book around the key subjects associated with functions of optical thin film performance, and provides a valuable resource in the field of thin film technology. The information is widely backed up with citations to patents and published literature. The author draws from 25 y...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Baumeister, Philip
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bellingham, WA. : SPIE Optical Engineering Press, 2004.
Colección:SPIE monograph ; PM137.
Temas:
Optical coatings.
Revêtements optiques.
Optical coatings
Beschichtung
Optische Schicht
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Chapter 1. How coatings are used and integrated into optical systems
  • 1.1. Fabrication of multilayer interference devices
  • 1.2. Nomenclature and general properties
  • 1.3. Antireflection coatings
  • 1.4. Spectral filtering and narrowband rejection
  • 1.5. Filters with broad spectral bandwidth
  • 1.6. Bandpasses
  • 1.7. Reflectors used principally at normal incidence
  • 1.8. Beamdividers, dichroics and polarizers
  • 1.9. Miscellaneous topics
  • 1.10. Appendices.
  • Chapter 2. Fundamentals
  • 2.0. Overview of chapter
  • 2.1. Overview of intuitive approach
  • 2.2. Reflection and transmission at an interface
  • 2.3. Phase shift upon reflection and node of the standing wave
  • 2.4. Properties of a multilayer
  • 2.5. Design concepts used at nonnormal incidence
  • 2.6. Aids to computation
  • 2.7. Properties of a stack with equal optical thickness layers
  • 2.8. Graphical aids to multilayer design
  • 2.9. Standing waves, net flux ratio and absorption
  • 2.10. Appendices: Propagation of electromagnetic waves
  • 2.11. Appendices.
  • Chapter 3. Thin films, the building blocks of multilayers
  • 3.0. Purpose of this chapter
  • 3.1. Methods of depositing a thin film, a conceptual view
  • 3.2. Deposition methods, hardware and procedures
  • 3.3. Overview of physical vapor deposition and film formation
  • 3.4. Process parameters influencing optical properties
  • 3.5. Criteria for thin film material selection
  • 3.6. Survey of coating materials
  • 3.7. Appendix: List of useful coating materials.
  • Chapter 4. Reflection reducing coatings
  • 4.0. Introduction
  • 4.1. Antireflection coating design by computer optimization
  • 4.2. Design methods and evaluation of antireflection coatings
  • 4.3. Multiple quarterwave and other narrowband designs
  • 4.4. All-dielectric antireflection coatings deposited upon metallic layers
  • 4.5. Coatings with broader spectral bandwidth, maximally flat designs
  • 4.6. Coating with zero reflectance at two or more wavelengths
  • 4.7. Chebyshev antireflection coatings
  • 4.8. Step-up and step-down of admittance
  • 4.9. Miscellaneous topics
  • 4.10. Appendix: Proofs, derivations and designs.
  • Chapter 5. Reflectors, edge filters and periodic structures
  • 5.1 Introduction
  • 5.2. Analysis of the basic period
  • 5.3. Single-stack coatings
  • 5.4. Edge filter design
  • 5.5. Broadband reflectors and rejection filters
  • 5.6. Phase shift upon reflection
  • 5.7. Miscellaneous topics
  • 5.8. Appendices.
  • Chapter 6. Beamdividers and polarizers
  • 6.1. Introduction
  • 6.2. Nonimmersed linear polarizers containing quarterwave layers
  • 6.3. Immersed linear polarizers
  • 6.4. Nonpolarizing nonimmersed designs
  • 6.5. Nonpolarizing immersed coatings
  • 6.6. Miscellaneous topics
  • 6.7. Appendices containing derivations
  • 6.8. Appendices containing multilayer designs.
  • Chapter 7. All-dielectric bandpass filters
  • 7.1. Introduction
  • 7.2. Control of the spectral bandwidth
  • 7.3. Periodic-structure bandpass design method
  • 7.4. Filter design using two components
  • 7.5. Periodic structures containing three materials
  • 7.6. Microwave design method
  • 7.7. Examples of conventional bandpass design
  • 7.8. Bandpasses for optical fiber communication
  • 7.9. Additional topics
  • 7.10. Miscellaneous topics and appendices.
  • Chapter 8. Coatings that contain absorbing layers
  • 8.1. Introduction
  • 8.2. Bandpass filters, general properties
  • 8.3. Design procedures for metal-dielectric bandpass filters
  • 8.4. Bandpass filter design examples
  • 8.5. Dark mirror absorber
  • 8.6. Reflectors
  • 8.7. Beamdivider containing silver
  • 8.8. Neutral density coatings
  • 8.9. Miscellaneous topics.
  • Chapter 9. Coating deposition
  • 9.1. Introduction
  • 9.2. Cleaning of a substrate prior to coating it
  • 9.3. Tooling, initial pumpdown, ion bombardment and heating of substrates
  • 9.4. Thin film deposition
  • 9.5. Collection of the evaporant upon the substrates
  • 9.6. The control of layer thickness during deposition
  • 9.7. Mechanical stress in optical coatings
  • 9.8. Appendices.
  • Chapter 10. Miscellaneous topics
  • 10.0. Overview of chapter
  • 10.1. Graphical aids to multilayer design
  • 10.2. Optimization
  • 10.3. Overall transmittance of an array of coated objects
  • 10.4. Performance of coatings, their optical characteristics
  • 10.5. Performance of coatings and their non-optical characteristics
  • 10.6. Phase relations in multilayers
  • 10.7. The influence of a coating upon a transmitted or reflected wavefront.
  • Chapter 11. References to the literature
  • Chapter 12. Notation and definitions of terminology
  • 12.1. Symbols, general comments
  • 12.2. Symbols
  • 12.3. Glossary of terminology
  • Chapter 13. Index.

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