Title :
Three-dimensional electromagnetic scattering from inhomogeneous objects by the hybrid moment and finite element method
Author_Institution :
Thayer Sch. of Eng., Dartmouth Coll., Hanover, NH, USA
Abstract :
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.<>
Keywords :
electromagnetic fields; electromagnetic wave scattering; finite element analysis; 3-D scattering; Galerkin testing procedure; Mie series solutions; arbitrarily shaped objects; convergence; divergenceless vector basis function; electrical parameters; finite element method; finite elements; homogeneous sphere; hybrid method; inhomogeneous objects; internal field; layered sphere; lossy prolate spheroid; moment method; scattered field; Dielectrics; Electromagnetic scattering; Electromagnetic wave absorption; Equations; Finite element methods; Message-oriented middleware; Mie scattering; Moment methods; Sparse matrices; Testing;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
