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In this paper, an efficient numerical approach is proposed for analyzing the scattering from PEC objects above a lossy half space over wide angular and frequency band. One of the principal tools for the analysis of scattering from targets located in half-space is the method of moments (MoM) and the half-space multilevel fast multipole algorithm (MLFMA). Since the surface current and the scattered...
An efficient surface integral equation solution is presented to the problem of electromagnetic scattering from chiral material coated conducting object above a lossy half space. By using the surface equivalence principle and the Bohren decomposition scheme, the electric-magnetic current combined-field integral equation (JMCFIE) combined with the combined-field integral equation (CFIE) is developed...
In this paper, the method of moment for bodies of revolution (BOR-MoM) is developed to analyze electromagnetic scattering from conducting bodies of revolution coated with chiral material. The Poggio-Miller-Chang-Harrington-Wu (PMCHW) integral equation is formulated using the surface equivalence principle, the boundary condition and Bohren's decomposition scheme, which is applied to split a chiral...
The problems of electromagnetic scattering from arbitrary complex media targets placed above a lossy half space are successfully analyzed by the FEBI method. The accuracy of the proposed method is proved by comparison with the published data.
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