Higher order CPML for leapfrog complying-divergence implicit FDTD method and its numerical properties
The leapfrog complying-divergence implicit finite-difference time-domain (CDI-FDTD) method is an implicit scheme that is unconditionally stable involving the simplest and most efficient leapfrog update procedures with minimum floating-point operations (flops). Moreover, the method possesses complyin...
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sg-ntu-dr.10356-1784872024-06-28T15:39:32Z Higher order CPML for leapfrog complying-divergence implicit FDTD method and its numerical properties Liu, Shuo Tan, Eng Leong Zou, Bin Zhang, Lamei School of Electrical and Electronic Engineering Engineering Absorbing boundary condition Complying-divergence implicit Convolutional perfectly matched layer Finite-difference time-domain method Unconditionally stable method The leapfrog complying-divergence implicit finite-difference time-domain (CDI-FDTD) method is an implicit scheme that is unconditionally stable involving the simplest and most efficient leapfrog update procedures with minimum floating-point operations (flops). Moreover, the method possesses complying divergence satisfying Gauss’s law, while other methods, including the leapfrog alternating direction implicit (ADI)-FDTD counterpart, do not. These desirable features make the leapfrog CDI-FDTD useful for electromagnetic simulations when the unconditional stability is to be exploited. In this article, a higher order convolutional perfectly matched layer (CPML) for leapfrog CDI-FDTD is developed and implemented for simulating open space problems. To formulate the CPML for leapfrog CDI-FDTD, we have carefully considered the order of CPML update along with proper use of main and auxiliary fields to retain the unconditional stability and complying divergence. The proposed CPML for leapfrog CDI-FDTD remains stable beyond the Courant time step as ascertained through von Neumann analysis. By comparing the flops and computation time, the leapfrog CDI-FDTD is shown to be most efficient among common implicit FDTD methods with CPML. The formulation of numerical divergence for higher order CPML is also presented. Simulation results show that the proposed higher order CPML has many advantages of simplicity, complying divergence, and high absorption efficiency. Ministry of Education (MOE) Submitted/Accepted version This work was supported in part by the National Natural Science Foundation of China under Grant 61401124 and Grant 61871158, in part by the Science Foundation of the National Key Laboratory of Science and Technology on Advanced Composites in Special Environments under Grant JCKYS2020603C007, and in part by the Singapore Ministry of Education under Grant RG49/21. 2024-06-24T06:19:04Z 2024-06-24T06:19:04Z 2022 Journal Article Liu, S., Tan, E. L., Zou, B. & Zhang, L. (2022). Higher order CPML for leapfrog complying-divergence implicit FDTD method and its numerical properties. IEEE Transactions On Microwave Theory and Techniques, 71(2), 522-535. https://dx.doi.org/10.1109/TMTT.2022.3199493 0018-9480 https://hdl.handle.net/10356/178487 10.1109/TMTT.2022.3199493 2 71 522 535 en RG49/21 IEEE Transactions on Microwave Theory and Techniques © 2023 IEEE. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1109/TMTT.2022.3199493. application/pdf |
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Engineering Absorbing boundary condition Complying-divergence implicit Convolutional perfectly matched layer Finite-difference time-domain method Unconditionally stable method |
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Engineering Absorbing boundary condition Complying-divergence implicit Convolutional perfectly matched layer Finite-difference time-domain method Unconditionally stable method Liu, Shuo Tan, Eng Leong Zou, Bin Zhang, Lamei Higher order CPML for leapfrog complying-divergence implicit FDTD method and its numerical properties |
| description |
The leapfrog complying-divergence implicit finite-difference time-domain (CDI-FDTD) method is an implicit scheme that is unconditionally stable involving the simplest and most efficient leapfrog update procedures with minimum floating-point operations (flops). Moreover, the method possesses complying divergence satisfying Gauss’s law, while other methods, including the leapfrog alternating direction implicit (ADI)-FDTD counterpart, do not. These desirable features make the leapfrog CDI-FDTD useful for electromagnetic simulations when the unconditional stability is to be exploited. In this article, a higher order convolutional perfectly matched layer (CPML) for leapfrog CDI-FDTD is developed and implemented for simulating open space problems. To formulate the CPML for leapfrog CDI-FDTD, we have carefully considered the order of CPML update along with proper use of main and auxiliary fields to retain the unconditional stability and complying divergence. The proposed CPML for leapfrog CDI-FDTD remains stable beyond the Courant time step as ascertained through von Neumann analysis. By comparing the flops and computation time, the leapfrog CDI-FDTD is shown to be most efficient among common implicit FDTD methods with CPML. The formulation of numerical divergence for higher order CPML is also presented. Simulation results show that the proposed higher order CPML has many advantages of simplicity, complying divergence, and high absorption efficiency. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Liu, Shuo Tan, Eng Leong Zou, Bin Zhang, Lamei |
| format |
Article |
| author |
Liu, Shuo Tan, Eng Leong Zou, Bin Zhang, Lamei |
| author_sort |
Liu, Shuo |
| title |
Higher order CPML for leapfrog complying-divergence implicit FDTD method and its numerical properties |
| title_short |
Higher order CPML for leapfrog complying-divergence implicit FDTD method and its numerical properties |
| title_full |
Higher order CPML for leapfrog complying-divergence implicit FDTD method and its numerical properties |
| title_fullStr |
Higher order CPML for leapfrog complying-divergence implicit FDTD method and its numerical properties |
| title_full_unstemmed |
Higher order CPML for leapfrog complying-divergence implicit FDTD method and its numerical properties |
| title_sort |
higher order cpml for leapfrog complying-divergence implicit fdtd method and its numerical properties |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/178487 |
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1806059927958978560 |