New full-wave finite-element analysis of dielectric waveguides

## Abstract A new approach for mesh truncation in the finite‐element vectorial modal analysis of dielectric waveguides is presented. It is based on layers with real anisotropic permittivity and permeability tensors. The approach does not require any iterative procedure, can directly calculate many

Using a full vectorial finite element based beam propagation method combined with the imaginary axis propagation technique, the accurate calculation of the full vectorial leaky modes of a curved optical waveguide is addressed. The numerical precision of the proposed modal solution approach is suppor

## Abstract As a new kind of broadband microwave component, the cutoff characteristic of a dielectric‐loaded single‐ridge waveguide is analysed by the finite‐element method. Design data for cutoff wavelength of dominant mode for different values of relative permittivity ε~__r__~ equal to 1.0, 5.0,

The need for a protecti¨e dielectric co¨er is presently more and more rele¨ant in wa¨eguide slot arrays, especially in space applications. Therefore, the knowledge about wa¨eguide slot arrays radiating into free space must be completed to design dielectric-co¨ered arrays. The aim of this paper is to

The finite element approach has previously been used, with the help of the ATILA code, to model the propagation of acoustic waves in waveguides [A.-C. Hladky-Hennion, Journal of Sound and Vibration 194, 119-136 (1996)]. In this paper an extension of the technique to the analysis of the propagation o