IMPROVED IMPLEMENTATION OF THE MUR FIRST-ORDER ABSORBING BOUNDARY CONDITION IN THE ADI-FDTD METHOD

T. Stefanski; T. D. Drysdale

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IMPROVED IMPLEMENTATION OF THE MUR FIRST-ORDER ABSORBING BOUNDARY CONDITION IN THE ADI-FDTD METHOD

机译：ADI-FDTD方法中Mur一阶吸收边界条件的改进实现

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Current implementations of the Mur 1st-order absorbing boundary condition (Mur1) in the alternating-direction implicit finite-difference time-domain (ADI-FDTD) method treat the intermediate (half-step) variables as electromagnetic field quantities that are an approximate solution to Maxwell's equations. This approach is problematic because these variables represent nonphysical quantities. Here, we rederive the Mur1 boundary condition for both the one-dimensional and three-dimensional cases such that the intermediate (half step) values are updated in a manner that is consistent with the ADI-FDTD scheme. We present numerical tests that show improved performance over existing Mur1 implementations in ADI-FDTD. These results suggest that careful consideration of the derivation of the half-step variable update equations for other special ADI-FDTD boundary and material conditions may yield similar improvements.

机译：交替方向隐式有限差分时域（ADI-FDTD）方法中的Mur一阶吸收边界条件（Mur1）的当前实现将中间（半步）变量视为电磁场量，这是一种近似解决方案麦克斯韦方程式。这种方法是有问题的，因为这些变量代表非物理量。在这里，我们针对一维和三维情况重新计算Mur1边界条件，以便以与ADI-FDTD方案一致的方式更新中间（半步）值。我们提供的数值测试表明，与ADI-FDTD中现有的Mur1实现相比，其性能有所提高。这些结果表明，对于其他特殊的ADI-FDTD边界和材料条件，仔细考虑半步变量更新方程的推导可能会产生类似的改进。

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《Microwave and optical technology letters》 |2008年第7期|共5页
作者
T. Stefanski; T. D. Drysdale;
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正文语种 eng
中图分类光学;
关键词
ADI-FDTD method; Computational electromagnetics; Analytical absorbing boundary conditions;

机译：ADI-FDTD方法;计算电磁学;分析吸收边界条件;

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1. 适用于ADI-FDTD的基于线性插值的吸收边界条件及其改进方法 [J] . 赵嘉宁东南大学学报（英文版） . 2009,第003期
2. IMPROVED IMPLEMENTATION OF THE MUR FIRST-ORDER ABSORBING BOUNDARY CONDITION IN THE ADI-FDTD METHOD [J] . T. Stefanski, T. D. Drysdale Microwave and optical technology letters . 2008,第7期

机译：ADI-FDTD方法中Mur一阶吸收边界条件的改进实现
3. Efficient High-Order Absorbing Boundary Condition for the ADI-FDTD Method [J] . Jianyi Zhou, Jianing Zhao IEEE microwave and wireless components letters . 2009,第1期

机译：ADI-FDTD方法的高效高阶吸收边界条件
4. Mur Absorbing Boundary Condition for Three-Step 3-D LOD-FDTD Method [J] . Liang F., Wang G., Lin H., Microwave and Wireless Components Letters, IEEE . 2010,第11期

机译：三步3-D LOD-FDTD方法的Mur吸收边界条件
5. Implementation of mur first order absorbing boundary condition in efficient 3-D ADI-FDTD [C] . Wei Choon Tay, Eng Leong Tan IEEE Antennas and Propagation Society International Symposium;APSURSI '09 . 2009

机译：高效3-D ADI-FDTD中mur一阶吸收边界条件的实现
6. Improved absorbing boundary conditions for time-domain methods in electromagnetics. [D] . Rickard, Yotka Spasova. 2002

机译：电磁学中时域方法的改进吸收边界条件。
7. An Absorbing Boundary Condition for the Lattice Boltzmann Method Based on the Perfectly Matched Layer [O] . A. Najafi-Yazdi, L. Mongeau -1

机译：基于完全匹配的层的晶格Boltzmann方法的吸收边界条件
8. Implementation of Isogeometric Fast Multipole Boundary Element Methods for 2D Half-Space Acoustic Scattering Problems with Absorbing Boundary Condition [O] . Leilei Chen, Steffen Marburg, Wenchang Zhao, 2019

机译：吸收边界条件2D半空间声学散射问题的ISOGeometric快速多极边界元方法的实现
9. A Projection Method for the Numerical Solution of a System of First-Order Nonlinear Differential Equations with Mixed Boundary Conditions. [R] . van schieveen, hendrik m. 1975

机译：具有混合边界条件的一阶非线性微分方程组数值解的投影方法。

IMPROVED IMPLEMENTATION OF THE MUR FIRST-ORDER ABSORBING BOUNDARY CONDITION IN THE ADI-FDTD METHOD

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