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Electromagnetic optics of thin-film ...

Amra, Claude.

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Electromagnetic optics of thin-film coatings = light scattering, giant field enhancement, and planar microcavities /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Electromagnetic optics of thin-film coatings/ Claude Amra, Michel Lequime, Myriam Zerrad.
Reminder of title:	light scattering, giant field enhancement, and planar microcavities /
Author:	Amra, Claude.
other author:	Lequime, Michel.
Published:	Cambridge :Cambridge University Press, : 2020.,
Description:	xiv, 377 p. :ill., digital ;25 cm.
Notes:	Title from publisher's bibliographic system (viewed on 01 Jan 2021).
Subject:	Thin films - Electric properties. -
Online resource:	https://doi.org/10.1017/9781108772372
ISBN:	9781108772372

Electromagnetic optics of thin-film coatings = light scattering, giant field enhancement, and planar microcavities /
Amra, Claude.

Electromagnetic optics of thin-film coatingslight scattering, giant field enhancement, and planar microcavities /[electronic resource] :Claude Amra, Michel Lequime, Myriam Zerrad. - Cambridge :Cambridge University Press,2020. - xiv, 377 p. :ill., digital ;25 cm.

Title from publisher's bibliographic system (viewed on 01 Jan 2021).

Three experts in the field of thin-film optics present a detailed and self-contained theoretical study of planar multilayers and how they can be effectively exploited in both traditional and modern applications. Starting with a discussion of the relevant electromagnetic optics, the fundamental optical properties of multilayers are introduced using an electromagnetic approach based on a direct solving of Maxwell's equations by Fourier transforms. This powerful approach is illustrated through the comprehensive description of two of the most important phenomena in multilayers, i.e. giant field enhancement in dielectric stacks and light scattering from thin-film optical filters. The same approach is extended to the description of the operation of planar microcavities and the balance of energy between radiated and trapped light. This book will be valuable to researchers, engineers and graduate students with interests in nanophotonics, optical telecommunications, observational astronomy and gravitational wave detection.

ISBN: 9781108772372Subjects--Topical Terms:

686025
Thin films
--Electric properties.

LC Class. No.: QC176.84.E5 / A67 2020

Dewey Class. No.: 530.41

Electromagnetic optics of thin-film coatings = light scattering, giant field enhancement, and planar microcavities /
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500 $a Title from publisher's bibliographic system (viewed on 01 Jan 2021).
520 $a Three experts in the field of thin-film optics present a detailed and self-contained theoretical study of planar multilayers and how they can be effectively exploited in both traditional and modern applications. Starting with a discussion of the relevant electromagnetic optics, the fundamental optical properties of multilayers are introduced using an electromagnetic approach based on a direct solving of Maxwell's equations by Fourier transforms. This powerful approach is illustrated through the comprehensive description of two of the most important phenomena in multilayers, i.e. giant field enhancement in dielectric stacks and light scattering from thin-film optical filters. The same approach is extended to the description of the operation of planar microcavities and the balance of energy between radiated and trapped light. This book will be valuable to researchers, engineers and graduate students with interests in nanophotonics, optical telecommunications, observational astronomy and gravitational wave detection.
650 0 $a Thin films $x Electric properties. $3 686025
650 0 $a Thin films $x Magnetic properties. $3 748040
700 1 $a Lequime, Michel. $3 3792547
700 1 $a Zerrad, Myriam. $3 3792548
856 4 0 $u https://doi.org/10.1017/9781108772372