En savoir plus
Thin-film coatings are universal on optical components such as displays, lenses, mirrors, cameras, and windows and serve a variety of functions such as antireflection, high reflection, and spectral filtering. Designs can be as simple as a single-layer dielectric for antireflection effects or very complex with hundreds of layers for producing elaborate spectral filtering effects. Starting from basic principles of electromagnetics, design techniques are progressively introduced toward more intricate optical filter designs, numerical optimization techniques, and production methods, as well as emerging areas such as phase change materials and metal film optics. Worked examples, Python computer codes, and instructor problem sets are included.
Key Features:
- Starting from the basic principles of electromagnetics, topics are built in a pedagogic manner toward intricate filter designs, numerical optimization and production methods.
- Discusses thin-film applications and design from simple single-layer effects to complex several-hundred-layer spectral filtering.
- Includes modern topics such as phase change materials and metal film optics.
- Includes worked examples, problem sets, and numerical examples with Python codes.
Table des matières
1. Fundamental Concepts. 2. Optical Thin Film Materials. 3. Transfer Matrix Method. 4. Single Layer Anti-Reflection Theory. 5. Multi-layer Anti-Reflection Theory. 6. High-Reflection Designs. 7. Herpin Equivalent Index & Phase Thickness. 8. Edge Filters. 9. Line Pass Filters. 10. Band Pass Filters. 11. Thin Film Designs for Oblique Incidence. 12. Metal Film Optics. 13. Thin Film Designs Using Phase Change Materials. 14. Deposition Methods.
A propos de l'auteur
Dr. Andrew Sarangan is a Full Professor in the Electro-Optics & Photonics Department at the University of Dayton, Ohio. He received his BASc and PhD degrees from the University of Waterloo in Canada in 1991 and 1997 respectively. His current research areas are in infrared photodetector technologies, optical thin films, nanofabrication, nano-structured thin films and computational electromagnetics. At Dayton he created a state-of-the-art and comprehensive nano-fabrication laboratory for thin films, lithography and semiconductor processing, as a single-PI effort from externally funded research. His research has been sponsored by the National Science Foundation, various agencies of the Department of Defense and the Air Force Research Laboratory.
Résumé
This title begins with the basic principles of electromagnetics and builds up to intricate optical filter designs, numerical optimization techniques, and production methods. It includes worked and practical examples, MATLAB and Python codes, instructor problem sets, as well as intuitive explanations of physical processes and design strategies.
