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Book Cover
Author Teare, Scott W., author.

Title Optical interference filters using MATLAB / Scott W. Teare
Published Bellingham, Washington, USA : SPIE Press, [2019]
Online access available from:
ProQuest Ebook Central    View Resource Record  


Description 1 online resource (xi, 180 pages)
Contents Introduction -- Light : reflection and transmission -- Complex index of refraction in optical materials -- Optical admittance matching -- Dielectric thin-film structures -- Maximum-potential transmittance for induced-transmission filters -- Offband effects in induced-transmission filters -- Enhancing bandpass filters -- Interference filter applications -- From simulations to functional filters
Summary Optical Interference Filters Using MATLABĀ® provides a foundation for the development of MATLAB code for simulating the performance of thin-film optical structures that can be combined to make interference filters. MATLAB has excellent calculation and visualization capabilities that together are well aligned to the matrix methods commonly used for thin-film calculations. The simulations developed in this book begin with filters based on simple dielectric materials both with and without dispersion. Building on the discussion of these simple filters, simulations are next developed for metal-layer-based induced-transmission filters, and finally for complete thin-film interference filters. Readers ranging from students to practicing scientists and engineers will find that these simulations work well in conjunction with other textbooks in the field, or they can stand alone. The ability to generate custom programs and tune them to explore specific features of optical interference filters is anticipated to enhance the designer's understanding and appreciation of the subtleties involved in filter design
Bibliography Includes bibliographical references and index
Subject MATLAB
Light filters.
Optical coatings -- Mathematical models
Optical films.
Optical materials.
Thin films -- Mathematical models
Light filters.
Optical coatings -- Mathematical models.
Optical films.
Optical materials.
Thin films -- Mathematical models.
Form Electronic book
ISBN 1510623132