L.E.R. Petersson scite author profile

A formulation is presented for a two-dimensional time-domain finite-element method (FEM-TD) that incorporates periodic boundaries. The specifics of the method are shown for scattering problems, but it should be straightforward to extend it to radiation problems. The method solves for a transformed field variable (instead of solving directly for the electric field) in order to easily enable periodic boundary conditions in the time domain. The accuracy and stability of the method is demonstrated by a series of examples where the new formulation is compared with reference solutions. Very accurate results are obtained when the excitation (frequency range) and the geometry are such that no higher order Floquet modes are present. The accuracy is degraded in the presence of higher order modes due to the rather simple absorbing boundary condition that is used with the present formulation. The method is found to be stable even for angles of incidence close to grazing.Index Terms-Electromagnetic scattering by periodic structures, finite element methods, time domain analysis.

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Total-and Scattered-Field Decomposition Technique for the Finite-Element Time-Domain Method

Riley

Jin

Lou

et al. 2006

IEEE Trans. Antennas Propagat.

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L.E.R. Petersson

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Total-and Scattered-Field Decomposition Technique for the Finite-Element Time-Domain Method

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