平行板波导中表面等离子体的时域有限差分研究及功率的完美隧穿

O. González, A. Grande, J. Pereda, Á. Vegas
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引用次数: 0

摘要

利用表面等离子体条件,可以实现波导中功率的完美隧穿。几年前,为了实现这种完美的隧穿行为,提出了一种由负参数的超材料填充的波导。本通讯的目的是在时域分析和可视化同时呈现等离子共振和完美隧穿行为的结构。这项工作是利用时域有限差分(FDTD)公式进行的。如图所示,一个充满色散材料的波导是必要的,但它不是强制性的,这种材料是DNG。此外,这里使用的FDTD公式的主要优点是,它能够直接纳入本构参数的任何任意高阶频率依赖性,从而允许高阶色散材料的现实表征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
FDTD study of surface plasmons and perfect tunneling of power in parallel-plate waveguides
Perfect tunneling of power through waveguides can be achieved by taking advantage of surface plasmon conditions. A few years ago, a waveguide filled by metamaterials with negative parameters was proposed in order to achieve such perfect tunneling behaviour. The aim of this communication is to both analyze and visualize in the time domain a structure presenting both a plasmonic resonance and perfect tunneling behaviour. This work is carried out by using the Finite Difference Time Domain (FDTD) formulation presented in. As shown here, a waveguide filled with a dispersive material is necessary, but it is not mandatory for this material to be DNG. In addition, the main advantage of the FDTD formulation used here is that it is able to directly incorporate any arbitrary high-order frequency dependence of the constitutive parameters, allowing a realistic characterization of high-order dispersive materials.
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