Finite Difference Approach to Optical Scattering of Gratings

机译：光栅光学散射的有限差分法

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Fast and efficient finite difference scheme in the vertical direction for optical scattering of gratings is presented. A second order central difference with boundary corrections or a pseudo fourth order operator splitting method is used. A stable recursion formula for the impedance matrix can be obtained. Matrix diagonalizations can be used for rectangular grating profiles when many discretization points are required. The recurrence relation is equivalent to a UL decomposition of block tridiagonal matrix. It is numerically stable compared to existing finite difference methods for gratings and many times faster than the popular rigorous coupled wave analysis method.

机译：提出了一种垂直高效的光栅光散射有限差分方案。使用具有边界校正的二阶中心差或伪四阶算子分裂方法。可以获得阻抗矩阵的稳定递推公式。当需要许多离散点时，矩阵对角化可用于矩形光栅轮廓。递归关系相当于块三对角矩阵的UL分解。与现有的光栅有限差分方法相比，该方法在数值上是稳定的，并且比流行的严格耦合波分析方法快许多倍。

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《Conference on Advanced Characterization Techniques for Optics, Semiconductors, and Nanotechnologies; Aug 3-5, 2003; San Diego, California, USA》|2003年|p.358-370|共13页
会议地点 San Diego CA(US);San Diego CA(US)
作者
Hanyou Chu;
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Thermawave, Inc 1250 Reliance Way Fremont, CA;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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Finite Difference Approach to Optical Scattering of Gratings

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