Modelling nonlinear and dispersive propagation problems by using the TLM method

## Abstract The effects observed by a moving source and stationary receiver, or conversely stationary source and moving receiver are well known to physicists. The Doppler effect as it is commonly known is recognized as a perceived change in frequency of the incident signal upon the receiver, caused

A rigorous analysis of printed circuits and antennas requires a great computational e!ort, due to the necessity of an accurate modelling of large metallic structures, including radiating patches and feeding lines. The computational e!ort increases if we have to deal with radiation phenomena in larg

The suitability of the transmission line modelling method for studying field-particle interaction devices is assessed through an example of a simple two-cavity klystron amplifier. Two separate numerical studies are presented, covering both beam bunching in the buncher cavity and field generation in

## Abstract This study presents a novel application of the scaled boundary finite element method (SBFEM) to model dynamic crack propagation problems. Accurate dynamic stress intensity factors are extracted directly from the semi‐analytical solutions of SBFEM. They are then used in the dynamic fract

In this paper the efficiency of the boundary element method (BEM) for the solution of potential and wave propagation problems using BEM-subregions is examined. It will be shown, that the commonly used u-q-continuity technique for the coupling of BEM-subregions, does not always improve the accuracy o