Modeling of magnetic loss in the finite-element time-domain method

## Abstract A subcell model for arbitrarily located thin wires in the finite‐element time‐domain (FETD) method using modified telegraphers equations has been developed by Edelvik __et al__. Recently a dual set of equations has been proposed for modelling of thin slots. In this paper, we show that u

## Abstract A numerical scheme is described for the modeling of a general electrically and magnetically dispersive medium in the time‐domain finite‐element analysis of electromagnetic problems. This approach employs the recursive fast Fourier transform to evaluate the time convolutions induced by d

## 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

## Abstract A new coaxial waveguide‐port algorithm is developed and tested for the time‐domain finite‐element method. The electric field is modeled by edge elements and, for part of a coaxial cable or a similar transmission line, the full Maxwell's equations are reduced to the one‐dimensional trans

Scattering parameters of microstrip ring resonators with ) and without slits that are either edge or side coupled to the feedlines are simulated by the FDTD method. The strip conductors on the de¨ice can either be infinitely thin or finite in thickness. The simulations predict the occurrence of reso