Critical analysis of Yee and matched layers absorbing boundary conditions for 2-D and 3-D applications of the FDTD method

IEEE Antennas and Propagation Society International Symposium 1997. Digest Pub Date : 1997-07-13 DOI:10.1109/APS.1997.631710

C.-W.P. Huang, A. Elsherbeni, C.E. Smith

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Abstract

Since Yee defined the basic cell for the finite difference time domain (FDTD) technique in 1966, applications of FDTD have been adopted widely, which provide not only insights of the wave behavior in time domain but also wide band frequency domain information using Fourier transforms. The FDTD technique is based on the finite difference approximations of Maxwell's differential equations in both spatial field arrangements and time difference. Since the storage space available for computed fields in computers is finite, there is a need to truncate the problem space using absorbing boundary conditions (ABCs) that simulate continuous wave propagation on the truncation interfaces. Many ABCs have been introduced in the last few years; however, there is no reflectionless absorbing boundary. Two and three dimensional numerical absorbers, matched layers (ML) similar to those presented by Holland and Williams (1983) and by Reineix and Jecko (1989), and Yee's tapered damping function ABC are presented and critically evaluated.

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FDTD法在二维和三维应用中Yee和匹配层吸收边界条件的临界分析

自Yee于1966年定义时域有限差分(FDTD)技术的基本单元以来，FDTD的应用得到了广泛的应用，它不仅提供了对波在时域行为的见解，而且利用傅里叶变换提供了宽带频域信息。时域有限差分技术是基于麦克斯韦微分方程在空间场排列和时差上的有限差分近似。由于计算机中可用于计算字段的存储空间是有限的，因此需要使用吸收边界条件(abc)来截断问题空间，该条件在截断界面上模拟连续波的传播。在过去的几年里，已经引入了许多abc;然而，不存在无反射吸收边界。二维和三维数值吸收器，匹配层(ML)类似于荷兰和威廉姆斯(1983)和Reineix和Jecko(1989)提出的，以及Yee的锥形阻尼函数ABC。

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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IEEE Antennas and Propagation Society International Symposium 1997. Digest

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