The analysis of arbitrarily-shaped waveguides has been carried out by the Finite Element Method, using two types of elements: triangles with 3 degrees of freedom and triangles with four nodes and 10 degrees of freedom (4 for the unknown function and 6 for its gradient).Peer ReviewedPostprint (published version
This paper presents advanced-kinematics beam models to compute the dispersion characteristics of one...
A new formulation is developed for the analysis of waveguide problems. Maxwell's equations for the m...
Anisotropic layers with real permittivity and permeability tensors are used to enclosethe computatio...
Analysis of arbitrarily-shaped transitions in waveguides, such as inhomogeneous cavities and wavegui...
We use the Finite Elements Method to analize waveguides. Several weak and variational formulations o...
Neste trabalho, é apresentada uma formulação apropriada à análise de guias de ondas eletromagnéticos...
The finite element's method is aplied to the study of inhomogenous waveguides of arbitrary cross-sec...
A simple mixed triangular edge element is proposed for the finite elements, with which inhomogeneous...
Divergence-free shape functions are proposed for the finite elements, with which inhomogeneously-loa...
The analysis of the homogeneous parabolic waveguides has been analyzed previously by other authors a...
Orientador: Hugo Enrique Hernandez FigueroaDissertação (mestrado) - Universidade Estadual de Campina...
This work addresses the suitability of using structured meshes composed of quadrilateral finite elem...
Abstract—A unified approach using curvilinear hybrid edge/nodal elements with triangular shape is, f...
El proyecto se basa principalmente en la utilización de un método de ecuación integral muy optimizad...
A finite-element-based vectorial optical mode solver is used to analyze microstructured optical wave...
This paper presents advanced-kinematics beam models to compute the dispersion characteristics of one...
A new formulation is developed for the analysis of waveguide problems. Maxwell's equations for the m...
Anisotropic layers with real permittivity and permeability tensors are used to enclosethe computatio...
Analysis of arbitrarily-shaped transitions in waveguides, such as inhomogeneous cavities and wavegui...
We use the Finite Elements Method to analize waveguides. Several weak and variational formulations o...
Neste trabalho, é apresentada uma formulação apropriada à análise de guias de ondas eletromagnéticos...
The finite element's method is aplied to the study of inhomogenous waveguides of arbitrary cross-sec...
A simple mixed triangular edge element is proposed for the finite elements, with which inhomogeneous...
Divergence-free shape functions are proposed for the finite elements, with which inhomogeneously-loa...
The analysis of the homogeneous parabolic waveguides has been analyzed previously by other authors a...
Orientador: Hugo Enrique Hernandez FigueroaDissertação (mestrado) - Universidade Estadual de Campina...
This work addresses the suitability of using structured meshes composed of quadrilateral finite elem...
Abstract—A unified approach using curvilinear hybrid edge/nodal elements with triangular shape is, f...
El proyecto se basa principalmente en la utilización de un método de ecuación integral muy optimizad...
A finite-element-based vectorial optical mode solver is used to analyze microstructured optical wave...
This paper presents advanced-kinematics beam models to compute the dispersion characteristics of one...
A new formulation is developed for the analysis of waveguide problems. Maxwell's equations for the m...
Anisotropic layers with real permittivity and permeability tensors are used to enclosethe computatio...