Time-domain integral equations for EMP analysis

Computation of scattering from multi-wavelength bodies presents large computational requirements. Here is discussed the parallelisation strategy required for eective exploitation of a novel fast algorithm for integral equation time domain (IETD) analyses. The development and examples are couched in

## Abstract This letter presents an alternative implementation of the time domain adaptive integral method (TD‐AIM) for solving combined field integral equation (CFIE) pertinent to electromagnetic surface scattering phenomena. We use the cubic spline as temporal basis function and analytically remo

A method is presented to accelerate the execution of integral equation time domain analyses of exterior acoustic scattering problems. Conventionally, these have costs which scale with the "fth power of the frequency of the excitation, and practical limits to such computations are reached when bodies

In this work, we present a new and efficient numerical method to sol¨e the coupled integral equations, deri¨ed utilizing the equi¨alence principle for arbitrarily shaped dielectric bodies, directly in the time domain. The solution method is based on the method of moments, and in¨ol¨es the triangular

In this paper, the discrete generalized Bode's theorem is derived and applied to the transfer functions of time integration algorithms for semidiscrete ®nite element equations. An integral equation is obtained that has to be satis®ed by discrete-time transfer functions of time integration algorithms

Analysis of high frequency scattering using pulsed illumination generates surface ®elds which are small over most of the scatterer most of the time. A reformulation of the usual integral equation time domain approach which exploits this is presented. It is shown that cost scaling can be reduced, wit