Three-dimensional simulation of surface plasmon polariton nanometric optical circuits by volume integral equation

K. Tanaka, M. Tanaka
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Abstract

Downsizing of optical circuits is one of the most important subjects in communication technology for the future. Recently, the subject of making optical circuits of nanometric scale has attracted much attention. The size and density of optical devices employing conventional optical waveguide and photonic crystals is limited by the diffraction limit of light. However, the size of optical waveguides using surface plasmon polaritons (SPPs) can be significantly decreased as compared to the conventional diffraction-limited optical waveguide. The optical circuit using SPPs is a promising candidate for nanoscale optical circuits. We propose a nanoscale optical waveguide and show, by three-dimensional numerical simulations, that this waveguide can be employed in nanometric optical circuits.
基于体积积分方程的表面等离子激元纳米光学电路三维模拟
光电路的小型化是未来通信技术的重要课题之一。近年来,制作纳米级光学电路的研究备受关注。采用传统光波导和光子晶体的光学器件的尺寸和密度受到光的衍射极限的限制。然而,与传统的衍射受限光波导相比,使用表面等离子激元(SPPs)的光波导的尺寸可以显着减小。SPPs光学电路是纳米级光学电路的理想选择。我们提出了一种纳米尺度的光波导,并通过三维数值模拟表明,该波导可以用于纳米光学电路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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