Efficient Computation of Scattering from Targets with Negative Impedance Surface

Jingwei Hao; Hongwei Gao; Xinqing Sheng

doi:10.15918/j.jbit1004-0579.201726.0113

Efficient Computation of Scattering from Targets with Negative Impedance Surface

Jingwei Hao, Hongwei Gao, Xinqing Sheng^*

^*Corresponding author for this work

Beijing Institute of Technology

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

Abstract

Current surface integral equations used for computing scattering from targets with negative impedance boundary condition (IBC) are not efficient. A modified surface dual integral equation (M-SDIE) for targets with negative IBC is presented. A pure imaginary number is used to balance the formulations. It is proved that the M-SDIE is accurate and efficient with three numerical examples. The first numerical example shows that the M-SDIE is accurate compared with Mie. The second example shows that the presented SIE is efficient. In the third example, a missile head is selected to present the computing power of the M-SDIE. All the examples show that the M-SDIE is an efficient algorithm for negative IBC.

Original language	English
Pages (from-to)	90-94
Number of pages	5
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	26
Issue number	1
DOIs	https://doi.org/10.15918/j.jbit1004-0579.201726.0113
Publication status	Published - 1 Mar 2017

Keywords

Electromagnetic scattering
Impedance boundary condition (IBC)
Method of moments (MoM)
Surface integral equation

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10.15918/j.jbit1004-0579.201726.0113

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title = "Efficient Computation of Scattering from Targets with Negative Impedance Surface",

abstract = "Current surface integral equations used for computing scattering from targets with negative impedance boundary condition (IBC) are not efficient. A modified surface dual integral equation (M-SDIE) for targets with negative IBC is presented. A pure imaginary number is used to balance the formulations. It is proved that the M-SDIE is accurate and efficient with three numerical examples. The first numerical example shows that the M-SDIE is accurate compared with Mie. The second example shows that the presented SIE is efficient. In the third example, a missile head is selected to present the computing power of the M-SDIE. All the examples show that the M-SDIE is an efficient algorithm for negative IBC.",

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AU - Hao, Jingwei

AU - Gao, Hongwei

AU - Sheng, Xinqing

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N2 - Current surface integral equations used for computing scattering from targets with negative impedance boundary condition (IBC) are not efficient. A modified surface dual integral equation (M-SDIE) for targets with negative IBC is presented. A pure imaginary number is used to balance the formulations. It is proved that the M-SDIE is accurate and efficient with three numerical examples. The first numerical example shows that the M-SDIE is accurate compared with Mie. The second example shows that the presented SIE is efficient. In the third example, a missile head is selected to present the computing power of the M-SDIE. All the examples show that the M-SDIE is an efficient algorithm for negative IBC.

AB - Current surface integral equations used for computing scattering from targets with negative impedance boundary condition (IBC) are not efficient. A modified surface dual integral equation (M-SDIE) for targets with negative IBC is presented. A pure imaginary number is used to balance the formulations. It is proved that the M-SDIE is accurate and efficient with three numerical examples. The first numerical example shows that the M-SDIE is accurate compared with Mie. The second example shows that the presented SIE is efficient. In the third example, a missile head is selected to present the computing power of the M-SDIE. All the examples show that the M-SDIE is an efficient algorithm for negative IBC.

KW - Electromagnetic scattering

KW - Impedance boundary condition (IBC)

KW - Method of moments (MoM)

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Efficient Computation of Scattering from Targets with Negative Impedance Surface

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