An Accurate Edge-based FEM for Electromagnetic Analysis with Its Applications to Multiscale Structures
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This paper introduces an accurate edge-based smoothed finite element method (ES-FEM) for electromagnetic analysis for both two-dimensional cylindrical and three dimensional cartesian systems, which shows much better performance in terms of accuracy and numerical stability for mesh distortion compared with the traditional FEM. Unlike the traditional FEM, the computational domain in ES-FEM is divided into nonoverlapping smoothing domains associated with each edge of elements, triangles in two dimensional domain and tetrahedrons in three dimensional domain. Then, the gradient smoothing technique is used to smooth the gradient components in the stiff matrix of the FEM. Numerical results show that the ES-FEM can obtain much more accurate results than the traditional FEM and is independent of distortion of background meshes, which shows great potential to solve practical electromagnetic problems.
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