Envelope full-wave 3D finite element time domain method

An efficient frequency-dependent finite-element time-domain method for the analysis of dispersive media is presented. The formulation, based on the 2 nd -order wave equation, includes a slowly-varying envelope approximation (SVEA) and perfectly matched layers (PMLs), and the dispersion effects of th

The advantage of the envelope finite-element time-domain (EFETD) method compared to the direct finite-element time-domain (FETD) method is that a much larger time step can be used. Although both approaches use the Newmark-Beta technique for time-stepping, it has recently been demonstrated for the FE

## Abstract The 2D finite‐difference frequency‐domain method combined with the surface‐impedance boundary condition is applied for the analysis of dispersion characteristics of lossy metal waveguides. Six electromagnetic field components are involved in the final eigen equation. By solving the eige

A time-domain finite element method is developed to approximate the electromagnetic fields scattered by a bounded, inhomogeneous two-dimensional cavity embedded in the infinite ground plane. The time-dependent scattering problem is first discretized in time by Newmark's time-stepping scheme. A nonlo

## Abstract This paper presents the finite element time domain (FETD) model for numerical solution of the multi‐conductor transmission line (MTL) problem. Based on the finite element method (FEM) and the generalised trapezoidal rule, a novel numerical procedure for solution of a system of the teleg