Wave Propagation In Multiply Connected Deep Waveguides

The spectral element method is extended to problems involving arbitrary non-uniform waveguides by introducing an approximate tapered element. The depth of the cross-section is assumed to vary linearly, thus allowing an arbitrary variation to be modelled as a collection of piece-wise linear segments.

A spectrally formulated element that has three degrees of freedom (axial motion, transverse motion and rotation) per node for analysis of slender multiply connected composite beams under high-frequency impact loading is presented. The model represents a linear distributed parameter system. The eleme

## Abstract Nonradiative dielectric waveguides employing metamaterial media are studied with the aim of obtaining unimodal surface‐wave propagation for the operating low‐loss LSM~01~ mode. Homogeneous isotropic __ε__‐negative media are considered, with a plasma‐like frequency‐dependent relative per

## Abstract The propagation of pulse waves in coplanar waveguides (CPWs) is investigated, and these CPWs are assumed to be fabricated on a single‐layer low‐temperature co‐fired ceramic (LTCC) substrate. The input pulse wave can be a Gaussian pulse or a sinusoidally modulated Gaussian pulse. Based o