Multiresolution model of electromagnetic wave propagation in dispersive materials

## Abstract A time‐domain solution of electromagnetic wave propagation in Tellegen materials is presented. The angle tilt between electric and magnetic fields, the phase speed of the wave, and the intrinsic impedance are computed when the medium is excited with a monochromatic source. The results a

## Abstract A method for the time‐domain simulation of electromagnetic wave propagation in ferromagnetic materials displaying frequency‐dependence and saturation is developed. The technique is based on incorporating into transmission‐line modelling (TLM) a non‐linear system to describe the frequenc

## Abstract A TLM model suitable to simulate the propagation of electromagnetic waves in Tellegen media is presented. The angle tilt between electromagnetic field vectors, the intrinsic impedances and the effective parameters of the medium are computed. The results for a monochromatic source are in

In this paper, a novel TLM algorithm for electromagnetic wave propagation in chiral media is presented. One of the main characteristics of the electromagnetic response of such media is the rotation of the polarization plane. The obtained TLM results for a monochromatic source are compared with the t

## Abstract The work of Barba et al.1 is fatally flawed on two counts: (i) the existence of Tellegen mediums is unrecognizable in modern electromagnetic theory, and (ii) the time‐domain constitutive relations used in the commented upon work are noncausal. © 2004 Wiley Periodicals, Inc. Microwave Op

## Abstract Non‐local dispersive model for wave propagation in heterogeneous media is derived from the higher‐order mathematical homogenization theory with multiple spatial and temporal scales. In addition to the usual space–time co‐ordinates, a fast spatial scale and a slow temporal scale are intr