☆ 4.2 Article

Modeling of Graphene Planar Grating in the THz Range by the Method of Singular Integral Equations

FREQUENZ (2018)

Journal

FREQUENZ

Volume 72, Issue 5-6, Pages 277-284

Publisher

WALTER DE GRUYTER GMBH

DOI: 10.1515/freq-2017-0059

Keywords

graphene strips; Kubo formalism; planar grating; singular integral equation; Nystrom-type algorithm

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Abstract

Diffraction of the H-polarized electromagnetic wave by the planar graphene grating in the THz range is considered. The scattering and absorption characteristics are studied. The scattered field is represented in the spectral domain via unknown spectral function. The mathematical model is based on the graphene surface impedance and the method of singular integral equations. The numerical solution is obtained by the Nystrom-type method of discrete singularities.

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Modeling of Graphene Planar Grating in the THz Range by the Method of Singular Integral Equations

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FREQUENZ

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WALTER DE GRUYTER GMBH

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Modeling of Graphene Planar Grating in the THz Range by the Method of Singular Integral Equations

Journal

FREQUENZ

Publisher

WALTER DE GRUYTER GMBH

Keywords

Categories

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