In the context of photonic waveguides, a full-wave scheme for modal analysis on waveguides is introduced. The scheme is based on a Finite Element Method (FEM) formulation using high-order vector and scalar elements, and its effiency is illustrated through numerical examples.160161International Conference on Optical MEMS and Nanophotonics2019-07-28Daejeon, Coreia do Su
The research activity presented is focused on the study of numerical methods for electromagnetism an...
A new approach,for mesh truncation in the finite-element vectorial modal analysis of dielectric wave...
This paper presents an improved finite-element formulation for axially uniform electromagnetic waveg...
A new full-vectorial finite element method (FEM) approach completely free of spurious modes for anal...
A full-wave modal analysis of two-dimensional, lossy and anisotropic optical waveguides using the fi...
We present a finite-element simulation tool for calculating light fields in 3D nano-optical devices....
We report the development and applications of finite-element-based numerical approaches for the char...
The combination of purely numerical methods, such as the finite element method, with an analytical t...
Anisotropic layers with real permittivity and permeability tensors are used to enclosethe computatio...
Mesh truncation in finite element vectorial modal analysis of dielectric waveguides is performed by ...
A new formulation is developed for the analysis of waveguide problems. Maxwell's equations for the m...
Mesh truncation in finite element vectorial modal analysis of dielectric waveguides is performed by ...
An efficient numerical strategy to compute the higher-order dispersion parameters of optical wavegui...
A finite-element-based vectorial optical mode solver is used to analyze microstructured optical wave...
We have studied the approximation of optical waveguide eigenvalues by a high order isoparametric vec...
The research activity presented is focused on the study of numerical methods for electromagnetism an...
A new approach,for mesh truncation in the finite-element vectorial modal analysis of dielectric wave...
This paper presents an improved finite-element formulation for axially uniform electromagnetic waveg...
A new full-vectorial finite element method (FEM) approach completely free of spurious modes for anal...
A full-wave modal analysis of two-dimensional, lossy and anisotropic optical waveguides using the fi...
We present a finite-element simulation tool for calculating light fields in 3D nano-optical devices....
We report the development and applications of finite-element-based numerical approaches for the char...
The combination of purely numerical methods, such as the finite element method, with an analytical t...
Anisotropic layers with real permittivity and permeability tensors are used to enclosethe computatio...
Mesh truncation in finite element vectorial modal analysis of dielectric waveguides is performed by ...
A new formulation is developed for the analysis of waveguide problems. Maxwell's equations for the m...
Mesh truncation in finite element vectorial modal analysis of dielectric waveguides is performed by ...
An efficient numerical strategy to compute the higher-order dispersion parameters of optical wavegui...
A finite-element-based vectorial optical mode solver is used to analyze microstructured optical wave...
We have studied the approximation of optical waveguide eigenvalues by a high order isoparametric vec...
The research activity presented is focused on the study of numerical methods for electromagnetism an...
A new approach,for mesh truncation in the finite-element vectorial modal analysis of dielectric wave...
This paper presents an improved finite-element formulation for axially uniform electromagnetic waveg...