Analysis of photonic crystal filters by the finite-difference time-domain technique

This letter describes a method intended for the resolution of the electromagnetic diffraction of structures of ¨ery different sizes. The problem to be sol¨ed is di¨ided into two subdomains: the first where a ''rigorous'' method analyzes the radiation of small elements, and the second where an ''asym

This paper is a review discussing properties of "eld solutions produced by various "nite di!erence schemes in the time domain. Considered algorithms include standard FDTD as well as its modi"cations based on di!erent sets of electromagnetic equations and/or di!erent discretization in space. By devel

A comprehensive simulation procedure is presented for describing the behaviour of high-frequency "eld e!ect transistors (FETs). It combines a circuit model of the intrinsic part of the device with a hybrid "nite elements/"nite di!erences (FE/FD) technique directly implemented in time domain (TD). Th

In this paper, we present a technique, based on the principle of the frequency-domain con¨olution of a time-domain signature and a truncation window function, to process the electromagnetic field solution in a resonant structure deri¨ed by using the finite-difference ( ) time-domain FDTD algorithm.