Title :
An Efficient Volume Integral Equation Solution to EM Scattering by Complex Bodies With Inhomogeneous Bi-Isotropy
Author :
Wang, D.X. ; Yung, E.K.N. ; Chen, R.S. ; Lau, P.-Y.
Author_Institution :
City Univ. of Hong Kong, Hong Kong
fDate :
7/1/2007 12:00:00 AM
Abstract :
A generalized volume integral equation method is formulated for electromagnetic scattering by arbitrarily shaped complex bodies with inhomogeneous bi-isotropy. Based on the volume equivalence principle, the integral equations are represented in terms of a pair of coupled bi-isotropic polarized volume electric and magnetic flux densities. Reduction of the integral equations into the corresponding matrix equations is obtained using the method of moments (MoM) combined with the tetrahedral mesh. In the MoM solution, the three-dimensional solenoidal function is incorporated as the basis function defined over each tetrahedral element and the details of implementation, particularly the treatment of integral singularities, will be elucidated. The efficiency and accuracy of the proposed method are validated by illustratively supported examples.
Keywords :
electromagnetic wave scattering; integral equations; matrix algebra; method of moments; 3D solenoidal basis function; EM scattering; MoM solution; arbitrarily shaped complex bodies; electromagnetic scattering; inhomogeneous bi-isotropy; integral singularities; matrix equation; method of moments; tetrahedral mesh; volume equivalence principle; volume integral equation; Bismuth; Couplings; Electromagnetic scattering; Electromagnetic wave polarization; Electromagnetic waveguides; Integral equations; Magnetic materials; Moment methods; Nonuniform electric fields; Radar scattering; Inhomogeneous bi-isotropy; method of moments (MoM); three-dimensional (3-D) solenoidal basis function; volume integral equation;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2007.900260
