Simulation of transmission characteristics of nanometric bend circuits with open-type surface-plasmon gap waveguides

Tanaka K.; Tanaka M.; Sugiyama T.

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Simulation of transmission characteristics of nanometric bend circuits with open-type surface-plasmon gap waveguides

机译：开口型表面等离子体间隙波导对纳米弯曲电路传输特性的仿真

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The transmission characteristics of nanometric bend circuits consisting of open-type surface plasmon polariton gap waveguides (o-SPGWs) are investigated by three-dimensional numerical simulation. The polygonal bend was used as a polygonal approximation of a circular bend. The scattering problem for this model is described by a volume integral equation and solved by an iterative technique based on the generalized minimum residual (GMRES) method and fast Fourier transform (FFT). The radiation loss from the o-SPGW polygonal bend structure is shown to be small compared to the propagation loss, and o-SPGWs are demonstrated to be useful as nanometric optical wire interconnects in nanometric optical circuits.

机译：通过三维数值模拟研究了由开放型表面等离子体激元极化缝隙波导（o-SPGWs）组成的纳米弯曲电路的传输特性。多边形折弯用作圆形折弯的多边形近似。该模型的散射问题由体积积分方程描述，并通过基于广义最小残差（GMRES）方法和快速傅里叶变换（FFT）的迭代技术解决。与传播损耗相比，来自o-SPGW多边形弯曲结构的辐射损耗显示出很小，并且已证明o-SPGWs可用作纳米光学电路中的纳米光学导线互连。

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《Journal of Lightwave Technology》 |2005年第11期|p.3857-3863|共7页
作者
Tanaka K.; Tanaka M.; Sugiyama T.;
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正文语种 eng
中图分类无线电电子学、电信技术;
关键词
fast Fourier transforms; integral equations; micro-optics; nanostructured materials; numerical analysis; optical interconnections; optical losses; optical waveguide theory; polaritons; surface plasmons; waveguide discontinuities; fast Fourier transform; generalized;

机译：快速傅里叶变换;积分方程;微光学;纳米结构材料;数值分析;光学互连;光学损耗;光波导理论;极化子;表面等离激元;波导不连续性;快速傅里叶变换;广义;

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Simulation of transmission characteristics of nanometric bend circuits with open-type surface-plasmon gap waveguides

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