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Nonlinear Scattering by Anisotropic Dielectric Periodic Structures

Nonlinear Scattering by Anisotropic Dielectric Periodic Structures The combinatorial frequency generation by the periodic stacks of binary layers of anisotropic nonlinear dielectrics is examined. The products of nonlinear scattering are characterised in terms of the three-wave mixing processes. It is shown that the intensity of the scattered waves of combinatorial frequencies is strongly influenced by the constitutive and geometrical parameters of the anisotropic layers, and the frequency ratio and angles of incidence of pump waves. The enhanced efficiency of the frequency conversion at Wolf-Bragg resonances has been demonstrated for the lossless and lossy-layered structures. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Advances in OptoElectronics Hindawi Publishing Corporation

Nonlinear Scattering by Anisotropic Dielectric Periodic Structures

Shramkova, O. V.; Schuchinsky, A. G.
Advances in OptoElectronics , Volume 2012 (2012) – Sep 19, 2012
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Publisher
Hindawi Publishing Corporation
Copyright
Copyright © 2012 O. V. Shramkova and A. G. Schuchinsky.
ISSN
1687-563X
eISSN
1687-5648
Publisher site
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Abstract

The combinatorial frequency generation by the periodic stacks of binary layers of anisotropic nonlinear dielectrics is examined. The products of nonlinear scattering are characterised in terms of the three-wave mixing processes. It is shown that the intensity of the scattered waves of combinatorial frequencies is strongly influenced by the constitutive and geometrical parameters of the anisotropic layers, and the frequency ratio and angles of incidence of pump waves. The enhanced efficiency of the frequency conversion at Wolf-Bragg resonances has been demonstrated for the lossless and lossy-layered structures.

Journal

Advances in OptoElectronicsHindawi Publishing Corporation

Published: Sep 19, 2012

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