夹在两个石墨烯覆盖层之间的薄介电盘的太赫兹范围基本偶极激发:积分方程分析

2019 IEEE International Conference on Microwaves, Antennas, Communications and Electronic Systems (COMCAS) Pub Date : 2019-11-01 DOI:10.1109/COMCAS44984.2019.8958411

M. Balaban, R. Sauleau, M. García-Vigueras, A. Nosich

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引用次数: 0

摘要

我们使用积分方程技术，研究了一个基本偶极子辐射的场的散射，被夹在两个共形石墨烯覆盖层之间的薄介质盘，在上下两面。为了建立这种散射体的数学模型，我们使用了由Mitzner和Bleszynski等人首先得到并由Karlsson推广的广义边界条件。这使得我们可以在圆盘平面上推导出切向电场分量和磁场分量的Hankel变换的对偶积分方程，并将其转化为两个耦合的Fredholm第二类积分方程。对后一种方程进行离散化，并在保证收敛的情况下进行数值求解。我们计算并绘制了在太赫兹范围内放置在这种复合圆盘上方的基本磁偶极子辐射的功率。这表明所研究的散射体是一个复杂的开放谐振腔，支持低频等离子体模式和高频介电盘模式。

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Terahertz Range Elementary Dipole Excitation of a Thin Dielectric Disk Sandwiched between Two Graphene Covers: Integral Equation Analysis

We study, using the integral equation technique, the scattering of the field radiated by an elementary dipole, by a thin dielectric disk sandwiched between two conformal graphene covers, on the top and bottom faces. To build a mathematical model of such scatterer, we use the generalized boundary condition in the form first obtained by Mitzner and Bleszynski et al. and generalized by Karlsson. This enables us to derive dual integral equations in the disk plane for the Hankel transforms of the tangential electric and magnetic field components, and cast it to a set of two coupled Fredholm second-kind integral equations. The latter equations are discretized and solved numerically with the guaranteed convergence. We compute and plot the power radiated by an elementary magnetic dipole placed above such a composite disk, in the THz range. This reveals that the studied scatterer is a complicated open resonator supporting the low-frequency plasmon modes and the high-frequency dielectric-disk modes.

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来源期刊

2019 IEEE International Conference on Microwaves, Antennas, Communications and Electronic Systems (COMCAS)

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