The Conversion of Excitation Energy into Generated Energy at the Resonant Frequencies of a Transparent Nonlinear Layer

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L. Angermann
V. V. Yatsyk
M. V. Yatsyk

Abstract

An iterative algorithm is presented for analyzing the optimal resonant radiation properties of electromagnetic waves by cubically polarized nonlinear layers. The analysis is based on mathematical models for the rigorous treatment of the following problems: Self-consistent solution of both the system of boundary value problems of electrodynamics at resonant frequencies of excitation and generation, as well as the corresponding linearized eigenvalue problems with induced dielectric coefficients. The choice of the resonant excitation frequency of a nonlinear object in dependence on the real parts of the eigen frequencies of the spectral problems is discussed.

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How to Cite
Angermann, L., Yatsyk, V. V., & Yatsyk, M. V. (2019). The Conversion of Excitation Energy into Generated Energy at the Resonant Frequencies of a Transparent Nonlinear Layer. Advanced Electromagnetics, 8(1), 66–74. https://doi.org/10.7716/aem.v8i1.1132
Section
Research Articles

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