Solution of the differential Riccati equation using the transmission line modelling (TLM) technique

This paper describes an application of transmission-line modelling (TLM) for the solution of heat diffusion in a three-dimensional metallic structure, surrounded by a dielectric material. The example of heat propagation along an electric fuse embedded in granular silica is presented. Heat is generat

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 A stub leakage resistor at the nodes of an otherwise lossless TLM chain (i.e. without series resistors) introduces losses, although the corresponding absorption term in the Telegraphers' equation vanishes due to the absence of series resistors. This contradiction is outlined, an explana

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

By virtue of the success of the transmission line matrix method (TLM) in solving heat and matter diffusion problems, it should also be applicable to the time-dependent Schrodinger equation. The occurrence of complexvalued circuit elements does not destroy the unconditional stability of the routine.