An efficient method for simulation of wave elevation and wave drift force in the time domain

An explicit and stable time-domain method that sol¨es the propagation of wa¨e en¨elopes in optical structures is proposed. Based on the Dufort᎐Frankel method and ¨ariable change, it is an explicit difference approach. The method requires less memory and CPU time and is applied to the propagation of

## Abstract This article deals with a fast numerical method for GPR simulation of great scenes. Electromagnetic wave propagation in heterogeneous media is analyzed using a finite‐difference time‐domain (FDTD)‐based method. The use of a moving subdomain allows dealing with large scale and realistic

A numerical method for the simulation of elastic wave propagation is presented. Some important practical requirements for ®nite dierence methods are formulated. To satisfy these requirements, the proposed method is based on two key features. Firstly, the approximate solution is represented as a set

This work presents a novel numerical technique for the analysis of leaky-wave modes in laterally shielded, top-open multilayered planar transmission lines. The method develops the multilayered-media boxed Green's functions for this type of electromagnetic devices, and solves the characteristic elect