Analysis of transient electromagnetic scattering phenomena using a two-level plane wave time-domain algorithm

Abstract

A fast algorithm is presented for solving electric, magnetic, and combined field time-domain integral equations pertinent to the analysis of surface scattering phenomena. The proposed two-level plane wave time-domain (PWTD) algorithm permits a numerically rigorous reconstruction of transient near-fields from their far-field expansion and augments classical marching-on in-time (MOT) based solvers. The computational cost of analyzing surface scattering phenomena using PWTD-enhanced MOT schemes scales as O(N/sub i/N/sub s//sup 2/3/ log N/sub s/) as opposed to /spl Oscr/(N/sub t/N/sub s//sup 2/) for classical MOT methods, where N/sub t/ and N/sub s/ are the numbers of temporal and spatial basis functions discretizing the scatterer current. Numerical results that demonstrate the efficacy of the proposed solver in analyzing transient scattering from electrically large structures and that confirm the above complexity estimate are presented.