A time domain analysis of wave motions in chiral materials

## 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

A generalized time domain approach is described for the analysis and design of wave digital filters capable of performing sampling rate alterations whether integer or non-integer. It is based on sequential computation of the filter's system response; then this discrete response is reduced to a ratio

In the present paper the traditional BEM formulation for time-domain scalar wave propagation analysis is extended to a new class of problems. A procedure to consider linear time interpolation for boundary tractions is worked out. Time discontinuities are included by adding to the standard BEM equati

Analysis of elastic wave propagation in anisotropic solids with cracks is of particular interest to quantitative nondestructive testing and fracture mechanics. For this purpose, a novel time-domain boundary integral equation method (BIEM) is presented in this paper. A finite crack in an unbounded el

## 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

We present a quasi-planar incident wave excitation for time-domain scattering analysis of periodic structures. It uses a particular superposition of plane waves that yields an incident wave with the same periodicity as the periodic structure itself. The duration of the incident wave is controlled by