Fast direct solution of 3-D volume integral equations by skeletonization for dynamic electromagnetic wave problems

Yan Nan Liu; Xiao Min Pan; Xin Qing Sheng

doi:10.1002/jnm.2667

Fast direct solution of 3-D volume integral equations by skeletonization for dynamic electromagnetic wave problems

Yan Nan Liu, Xiao Min Pan^*, Xin Qing Sheng

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

The skeletonization-based direct solver is extended to the method of moments (MoM) solution of 3-D volume integral equations (VIEs) for dynamic electromagnetic wave problems. The direct solver approximates the impedance matrix by the hierarchical data sparse representation through skeletonization and then obtains the inverse matrix implicitly. Improvement is made in the proxy strategy to accelerate the skeletonization. Detailed studies are presented on the behavior of the direct solver with respect to target shape, mesh density, and permittivity. It is revealed that the fast direct solver is promising for nano applications, especially for the cases where large and high-contrast objects are involved, because iterative solvers always fail in reaching convergence due to the associated ill-conditioned impedance matrix.

Original language	English
Article number	e2667
Journal	International Journal of Numerical Modelling: Electronic Networks, Devices and Fields
Volume	33
Issue number	2
DOIs	https://doi.org/10.1002/jnm.2667
Publication status	Published - 1 Mar 2020

Keywords

direct solver
nano antenna
skeletonization
volume integral equation

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10.1002/jnm.2667

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title = "Fast direct solution of 3-D volume integral equations by skeletonization for dynamic electromagnetic wave problems",

abstract = "The skeletonization-based direct solver is extended to the method of moments (MoM) solution of 3-D volume integral equations (VIEs) for dynamic electromagnetic wave problems. The direct solver approximates the impedance matrix by the hierarchical data sparse representation through skeletonization and then obtains the inverse matrix implicitly. Improvement is made in the proxy strategy to accelerate the skeletonization. Detailed studies are presented on the behavior of the direct solver with respect to target shape, mesh density, and permittivity. It is revealed that the fast direct solver is promising for nano applications, especially for the cases where large and high-contrast objects are involved, because iterative solvers always fail in reaching convergence due to the associated ill-conditioned impedance matrix.",

keywords = "direct solver, nano antenna, skeletonization, volume integral equation",

author = "Liu, {Yan Nan} and Pan, {Xiao Min} and Sheng, {Xin Qing}",

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T1 - Fast direct solution of 3-D volume integral equations by skeletonization for dynamic electromagnetic wave problems

AU - Liu, Yan Nan

AU - Pan, Xiao Min

AU - Sheng, Xin Qing

PY - 2020/3/1

Y1 - 2020/3/1

N2 - The skeletonization-based direct solver is extended to the method of moments (MoM) solution of 3-D volume integral equations (VIEs) for dynamic electromagnetic wave problems. The direct solver approximates the impedance matrix by the hierarchical data sparse representation through skeletonization and then obtains the inverse matrix implicitly. Improvement is made in the proxy strategy to accelerate the skeletonization. Detailed studies are presented on the behavior of the direct solver with respect to target shape, mesh density, and permittivity. It is revealed that the fast direct solver is promising for nano applications, especially for the cases where large and high-contrast objects are involved, because iterative solvers always fail in reaching convergence due to the associated ill-conditioned impedance matrix.

AB - The skeletonization-based direct solver is extended to the method of moments (MoM) solution of 3-D volume integral equations (VIEs) for dynamic electromagnetic wave problems. The direct solver approximates the impedance matrix by the hierarchical data sparse representation through skeletonization and then obtains the inverse matrix implicitly. Improvement is made in the proxy strategy to accelerate the skeletonization. Detailed studies are presented on the behavior of the direct solver with respect to target shape, mesh density, and permittivity. It is revealed that the fast direct solver is promising for nano applications, especially for the cases where large and high-contrast objects are involved, because iterative solvers always fail in reaching convergence due to the associated ill-conditioned impedance matrix.

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KW - nano antenna

KW - skeletonization

KW - volume integral equation

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M3 - Article

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VL - 33

JO - International Journal of Numerical Modelling: Electronic Networks, Devices and Fields

JF - International Journal of Numerical Modelling: Electronic Networks, Devices and Fields

IS - 2

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ER -

Fast direct solution of 3-D volume integral equations by skeletonization for dynamic electromagnetic wave problems

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Keywords

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