Analysis of cylindrical waveguide discontinuities using vectorial eigenmodes and perfectly matched layers

The perfectly matched layer PML concept is interpreted as a change in the metric of space. By using the language of differential forms applied to the electromagnetic fields and exploring the metric in¨ariance of Maxwell's equations, the ¨arious pre¨alent PML formula-( ) tions Maxwellian and non-Maxw

## Abstract A fast method for analyzing optical waveguides with the use of an improved Fourier series method and an absorbing boundary condition of perfectly matched layer (PML) is proposed. The numerical examples show that the computing cost, calculated accuracy, and convergent speed with the PML

## Abstract A numerical approach for transition problems in optical waveguides is presented, with the use of the Fourier‐series expansion method combined with the absorbing boundary condition by a perfectly matched layer (PML). The optical propagation along a transition is described by a simple mat

## Abstract This article presents the development of discontinuous Galerkin time‐domain finite‐element method (DG‐TDFEM) for modeling wideband electromagnetic response of dielectric loaded waveguide structures.The method can be considered as a kind of domain decomposition method. The hierarchical v