Some remarks on Maxwell solvers for computational electromagnetics

H. Ikuno
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引用次数: 1

Abstract

Summary form only given. To model electromagnetic wave interactions on the complicated structures in microwave remote-sensing, devices used in the microwave and optical wave regions, and material sciences, we need to process ultra wideband signals on such structures. So far we have two types of Maxwell solvers. One type incudes techniques, such as the finite element method, the generalized multipoles method, and the boundary element method, for solving boundary value problems about the second order partial differential equation called the Helmholtz equation. The other is a direct Maxwell, for example, the finite difference time domain method in which Maxwell's equations, denoted by a set of first order coupled partial differential equations, can be solved. The author discusses the development of efficient and stable numerical algorithms for use as Maxwell solvers.
关于计算电磁学麦克斯韦求解法的几点评述
只提供摘要形式。为了模拟微波遥感、微波光波区器件和材料科学中复杂结构上的电磁波相互作用,我们需要对这些结构上的超宽带信号进行处理。到目前为止,我们有两种麦克斯韦求解器。一类包括解决二阶偏微分方程边值问题的技术,如有限元法、广义多极法和边界元法。另一种是直接麦克斯韦法,例如时域有限差分法,用一阶偏微分方程表示的麦克斯韦方程组可以求解。作者讨论了用于麦克斯韦求解的高效和稳定的数值算法的发展。
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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