Analysis of optical propagation in a corrugated dielectric waveguide

Figure Return loss of gap-coupled circular patch antenna derived by using three methods 4.0 and 1.6 mm, respectively. The cell size along the thickness of the substrate is 0.4 mm, while it is 0.6965 mm along the other two directions. Figure compares the result for the return loss of the antenna de

A double-channel lossy-dielectric waveguide, having its propagation characteristics controlled by the action of light, is analyzed here. The light is incident on a semiconductor material that constitutes the inner channel of the waveguide structure, generating a plasma. The analysis of the problem i

## Abstract We propose an accurate and efficient numerical method to compute the modal characteristics of dielectric optical waveguides. The present method represents electric and/or magnetic fields by Chebyshev polynomials based on a multidomain spectral collocation scheme. Compared with analytica

A wa¨eguide structure consisting of a wedge-shaped dielectric region bounded by two conducting planes is introduced. An exact analytical solution of this wa¨eguide is presented. Propagation properties of the wa¨eguide, including modal fields, dispersion characteristics, cutoff conditions, and dielec

## Abstract The eigenequation of a circular chiral ferrite dielectric waveguide is derived. The effects of chiralities in the core and cladding on the cutoff, the dispersion characteristics, and the field distributions are investigated. The results show that, not only the cutoff frequencies, but al