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Localized Green's function using a beam-pattern for the fast modeling of 2D electromagnetic scattering

Author

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  • Taner Oğuzer
  • Deniz Kutluay

Abstract

This study presents an alternative approach to the numerical solution of 2D electromagnetic scattering problems using a hybrid numerical technique based on a beam pattern function combined with the method of moments (MoM). A surface field distribution with finite width radiates outward, and it is used to define the new Green's function. This new Green's function has a beam aperture localized on the surface, and its beam width can be reduced to a few basis function levels by using a generalized pencil of beam function method (GPOF). This localization of the new Green's function brings to the sparsity in the main matrix. Then, the memory storage and the overall running times are reduced significantly by applying this localized radiation of Green's function. Numerical results have been presented in both polarizations for the single perfectly electrically conducting (PEC) strip geometry and 2D PEC objects with closed polygonal cross-sections such as square, triangle and arbitrary shapes.

Suggested Citation

  • Taner Oğuzer & Deniz Kutluay, 2022. "Localized Green's function using a beam-pattern for the fast modeling of 2D electromagnetic scattering," Journal of Electromagnetic Waves and Applications, Taylor & Francis Journals, vol. 36(18), pages 2804-2826, December.
  • Handle: RePEc:taf:tewaxx:v:36:y:2022:i:18:p:2804-2826
    DOI: 10.1080/09205071.2022.2107952
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