论文信息 - Three-dimensional electromagnetic scattering from inhomogeneous objects by the hybrid moment and finite element method

Three-dimensional electromagnetic scattering from inhomogeneous objects by the hybrid moment and finite element method

The hybrid moment and finite element methods are used to obtain 3-D scattering and/or absorption from inhomogeneous, arbitrarily shaped objects. The surface of the object is approximated by triangles and the volume of the object is approximated by tetrahedrons. The electrical parameters are assumed constant in each tetrahedron. The Galerkin testing procedure is used. To avoid contaminations of spurious mode, a divergenceless vector basis function is used in finite elements. The calculated internal field and scattered field for a homogeneous sphere, a layered sphere, and a lossy prolate spheroid are compared with Mie series solutions and other numerical techniques. The accuracy and rate of convergence of the solution are discussed. >

X. Yuan

[1] X. Yuan,et al. Coupling of finite element and moment methods for electromagnetic scattering from inhomogeneous objects , 1990 .

[2] M. L. Barton,et al. New vector finite elements for three‐dimensional magnetic field computation , 1987 .

[3] Peter P. Silvester,et al. Finite Elements for Electrical Engineers , 1983 .

[4] S. C. Hill,et al. Finite element-boundary integral formulation for electromagnetic scattering , 1984 .

[5] S. M. Rao. Electromagnetic scattering and radiation of arbitrarily shaped surfaces by triangular patch modeling , 1980 .

[6] Roger F. Harrington,et al. Field computation by moment methods , 1968 .