Fast time-domain simulation of optical waveguide structures with a multilevel dynamically adaptive mesh refinement FDTD approach

Yaxun Liu; Sarris C.D.

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Fast time-domain simulation of optical waveguide structures with a multilevel dynamically adaptive mesh refinement FDTD approach

机译：利用多层动态自适应网格细化FDTD方法对光波导结构进行快速时域仿真

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摘要

The finite-difference time-domain (FDTD) technique has been widely employed for the modeling of both linear and nonlinear optical structures. Its main advantages, however, namely, simplicity and versatility, are offered at the expense of significant computational resources needed for the simulation of realistic geometries. In this paper, a recent approach that incorporated an adaptively refined moving mesh into the FDTD technique for microwave circuit design is applied to two-dimensional optical waveguide problems, resulting in dramatic simulation time savings, compared with FDTD, while maintaining its accuracy. To complement the applicability of the proposed technique as a novel photonics design tool, numerical error studies that facilitate the educated a priori choice of the simulation parameters are provided.

机译：有限差分时域（FDTD）技术已被广泛用于线性和非线性光学结构的建模。但是，其主要优点（即简单性和多功能性）是以牺牲实际几何图形仿真所需的大量计算资源为代价的。在本文中，一种将自适应改进的移动网格合并到用于微波电路设计的FDTD技术中的最新方法被应用于二维光波导问题，与FDTD相比，它在节省仿真精度的同时节省了大量时间。为了补充所提出的技术作为一种新颖的光子学设计工具的适用性，提供了数值误差研究，该研究有助于对模拟参数进行有先验的选择。

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来源
《Journal of Lightwave Technology》 |2006年第8期|p.3235-3247|共13页
作者
Yaxun Liu; Sarris C.D.;
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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
finite difference time-domain analysis; mesh generation; optical waveguide theory; FDTD; adaptive mesh refinement; finite-difference time-domain; optical waveguide; Dielectric waveguides; finite-difference methods; mesh generation;

机译：时域有限差分;网格生成;光波导理论;FDTD;自适应网格细化;时域有限差分;光波导;介质波导;有限差分法;网格生成;

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Fast time-domain simulation of optical waveguide structures with a multilevel dynamically adaptive mesh refinement FDTD approach

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