Miao Miao Jia scite author profile

In this paper, we apply the fast Fourier transform on the perturbation-based augmented electric field integral equation (A-EFIE). The main idea lies on the Lagrangian interpolation of a series R n , n = −1, 0, 1, 2, ..., obtained by expanding Green's function using Taylor series. By utilizing the Toeplitz property of the R n on the uniform cartesian grids, the multiplication of expanded kernels in the vector and scalar potentials can be accelerated effectively. The oscillation of these expanded kernels has less variation compared to the original kernel with e ikR /R. In addition, we do not need to do any near field amendment when n ≥ 0. Numerical example validates the feasibility and validity of this method.

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Analysis and Stabilization of the Low-Frequency Time-Domain Augmented EFIE

Jia

Zhao

Sun

2016

Antennas Wirel. Propag. Lett.

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Stability properties of the MOT based time domain augmented electric field integral equation in solving low frequency problems

Jia

Zhao

Mao

et al. 2015

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Miao Miao Jia

Acceleration of Perturbation-Based Electric Field Integral Equations Using Fast Fourier Transform

Accelerated A-EFIE with perturbation method using fast fourier transform

Analysis and Stabilization of the Low-Frequency Time-Domain Augmented EFIE

Stability properties of the MOT based time domain augmented electric field integral equation in solving low frequency problems

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