On chaotic electromagnetic wave propagation

The complete theory for the electromagnetic solution of the canonical representation of a coplanar integrated circuit structure is pro¨ided in the regime of moderate nonlinearity of a ferroelectric film sandwiched between a superstrate and a substrate. The solution is ¨alid for both second-and third

## 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 A multiresolution time‐domain (MRTD) technique based on Haar wavelets has been applied to model the propagation of waves in dispersive materials, using a discretization of the convolution equation that governs the behaviour of the media. To validate the method, the reflection coefficien

A transmission line matrix (TLM) model suitable to simulate the propagation of waves in moving anisotropic continuous media is presented. As is well known, an electromagnetic wave propagating in a general medium, moving with respect to its source, experiences a drag by the own medium, which involves

## 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 Cabeceira et al. recently presented a time‐domain analysis of wave propagation in a Tellegen medium [1]. Their analysis is ill‐founded because (i) the existence of any Tellegen medium is not tenable within modern electromagnetic theory; and (ii) the constitutive relations employed are n