A new vector variational expression with high calculation speed and high numerical stability is presented for numerical calculation of propagation constants and fie1d distributions of anisotropic optical waveguides. The expression is suitab1e especially for the accurate analysis of the guided modes in the optical guides with complicated boundary shapes and dielectric tensors. The accuracy of the expression is examined comparing with the rigorous solutions of dielectric slab waveguides
A variational method that gives 4th-order accuracy by only using linear basis functions within the c...
The finite element's method is aplied to the study of inhomogenous waveguides of arbitrary cross-sec...
A new method for obtaining the propagation characteristics of single-mode optical waveguides with re...
A new vector variational expression with high calculation speed and high numerical stability is pr...
The authors derive a variational formulation for anisotropic, dielectric waveguides using only the (...
AbSfract- An improved vector finlte-element method has been used for the solution of general anisotr...
This work presents the application of a scalar finite element formulation for Ex (TE-like) modes in ...
A finite-element full-vectorial beam-propagation method is presented,for the first time, for the ana...
The Beam Propagation Method (BPM) has been extensivelyemployed to study the properties of various gu...
Anisotropic layers with real permittivity and permeability tensors are used to enclosethe computatio...
This paper discusses a numerical method for computing the electromagnetic modes supported by multila...
Abstract:- Equations are derived for calculation of the propagation constants and of the dispersion ...
grantor: University of TorontoAn improved vectorial finite-element method for the analysis...
A new full-vectorial improved finite-difference formula is proposed to analyze tilted interfaces bet...
Perfectly matched anisotropic absorbers are introduced in two- and three-dimensional beam propagatio...
A variational method that gives 4th-order accuracy by only using linear basis functions within the c...
The finite element's method is aplied to the study of inhomogenous waveguides of arbitrary cross-sec...
A new method for obtaining the propagation characteristics of single-mode optical waveguides with re...
A new vector variational expression with high calculation speed and high numerical stability is pr...
The authors derive a variational formulation for anisotropic, dielectric waveguides using only the (...
AbSfract- An improved vector finlte-element method has been used for the solution of general anisotr...
This work presents the application of a scalar finite element formulation for Ex (TE-like) modes in ...
A finite-element full-vectorial beam-propagation method is presented,for the first time, for the ana...
The Beam Propagation Method (BPM) has been extensivelyemployed to study the properties of various gu...
Anisotropic layers with real permittivity and permeability tensors are used to enclosethe computatio...
This paper discusses a numerical method for computing the electromagnetic modes supported by multila...
Abstract:- Equations are derived for calculation of the propagation constants and of the dispersion ...
grantor: University of TorontoAn improved vectorial finite-element method for the analysis...
A new full-vectorial improved finite-difference formula is proposed to analyze tilted interfaces bet...
Perfectly matched anisotropic absorbers are introduced in two- and three-dimensional beam propagatio...
A variational method that gives 4th-order accuracy by only using linear basis functions within the c...
The finite element's method is aplied to the study of inhomogenous waveguides of arbitrary cross-sec...
A new method for obtaining the propagation characteristics of single-mode optical waveguides with re...