Numerical Simulation of Waveguides of Arbitrary Cross-Section

In this paper, we outline the construction of Maple routines for the solution of the Helmholtz equation V2~b + k2~2 -~ 0 with Dirichlet boundary conditions in two-dimensional domains. By means of the symbolic manipulator, we are able to perform a numerical study of the eigenvalues for quantum billia

This paper deals with a semi-analytical finite element (SAFE) method for modeling wave propagation in waveguides of arbitrary cross-section. The method simply requires the finite element discretization of the cross-section of the waveguide, and assumes harmonic motion along the wave propagation dire

The mode dispersion of trapezoidal cross-section narrow ridge dielectric optical waveguides is calculated by the Weighted Residual Method (WRM). In the sloping region, the field is expressed in terms of Airy functions, thus having no arbitrariness at the boundaries. The result is compared with previ

## Abstract A modified method of lines is developed for propagation of TM waves in waveguides with constant arbitrary cross sections. The proposed method finds the eigenmodes and associated wave functions in a very practical manner. Numerical performance and accuracy of the proposed method are exam