Solution of time domain electric field integral equation for arbitrarily shaped dielectric bodies using an unconditionally stable methodology

## Abstract In this work, we present a new and efficient numerical method to obtain an unconditionally stable solution for the time‐domain magnetic‐field integral equation (TD‐MFIE) for arbitrarily closed conducting bodies. This novel method does not utilize the customary marching‐on‐in‐time (MOT)

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

## Abstract In this article, we propose a new stable solution for the time domain electric field integral equation (TD‐EFIE) for arbitrarily shaped conducting structures, which utilizes weighted Laguerre polynomials as temporal basis functions, which means that the unknown surface currents are expa