Analysis of transient scattering from arbitrarily shaped conducting body coated with thin layer lossy material

Abstract

A time domain integral equation (TDIE) approach combined with volume equivalence principle is developed for analysis of transient scattering from an arbitrarily shaped 3D conducting body coated with a thin layer of lossy material. The method of marching on-in time (MOT) is used to solve the discretized integral equation. Numerical results demonstrate that the proposed procedure is stable and accurate.