Title :
Forward-backward method with spectral acceleration for scattering from Layered rough surfaces
Author :
Moss, Christopher D. ; Grzegorczyk, Tomasz M. ; Han, Hsiu C. ; Kong, Jin Au
Author_Institution :
BAE Syst., Burlington, MA
fDate :
3/1/2006 12:00:00 AM
Abstract :
A fast method of moments is presented to calculate electromagnetic wave scattering from layered one-dimensional rough surfaces. The formulation is provided for M stratified homogeneous regions, separated by M-1 rough surfaces, and solved using point matching and pulse basis functions. Compared to the single surface case, the solution of scattering from M-1 surfaces requires significantly more memory and computational time. To facilitate the solution, the forward-backward method with spectral acceleration is applied. As an example, a dielectric layer on a perfect electric conductor surface is studied. The numerical results are compared with the analytical solution for layered flat surfaces to partly validate the formulation. The accuracy, efficiency, and convergence of the method are then studied for various rough surfaces and layer permittivities
Keywords :
computational electromagnetics; conducting bodies; convergence of numerical methods; electromagnetic wave scattering; method of moments; rough surfaces; spectral analysis; surface electromagnetic waves; MoM; convergence method; electric conductor surface; electromagnetic wave scattering; forward-backward method; method of moment; point matching; pulse basis function; rough surface; spectral acceleration; stratified surface; Acceleration; Electromagnetic scattering; Moment methods; Optical scattering; Optical surface waves; Radar scattering; Rough surfaces; Sea surface; Surface roughness; Surface waves; Forward-backward (FB) method; layered surfaces; method of moments; novel spectral acceleration (SA); rough surfaces; stratified surfaces;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2006.869921
