Add to ORKGThe computation of optical modes inside axisymmetric cavity resonators with a general spatial permittivity profile is a formidable computational task. In order to avoid spurious modes the vector Helmholtz equations are discretised by a mixed finite element approach. We formulate the method for first and second order Nedelec edge and Lagrange nodal elements. We discuss how to accurately compute the element matrices and to solve the resulting large sparse complex symmetric eigenvalue problems. We validate our approach by three numerical examples that contain varying material parameters and absorbing boundary conditions (ABC)
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
This paper presents a finite element method for 3-D analysis of an electro-magnetic eigenvalue probl...
This paper presents a finite element method for 3-D analysis of an electro-magnetic eigenvalue probl...
This thesis describes the use of the eigenvalue method for computing the modes of cavity resonators....
It is described, explicitly, how a popular, commercially-available software package for solving part...
A full-wave modal analysis of two-dimensional, lossy and anisotropic optical waveguides using the fi...
FEM has been applied to obtain the 3-dim. eigenmode of the rectangular resonant cavity. The vector H...
This work addresses the numerical solution of the differential cavity problem arising from Maxwell e...
We propose a vectorial perturbation theory for axially symmetric, generally nonspherical whispering ...
Mesh truncation in finite element vectorial modal analysis of dielectric waveguides is performed by ...
Mesh truncation in finite element vectorial modal analysis of dielectric waveguides is performed by ...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
This paper presents a finite element method for 3-D analysis of an electro-magnetic eigenvalue probl...
This paper presents a finite element method for 3-D analysis of an electro-magnetic eigenvalue probl...
This thesis describes the use of the eigenvalue method for computing the modes of cavity resonators....
It is described, explicitly, how a popular, commercially-available software package for solving part...
A full-wave modal analysis of two-dimensional, lossy and anisotropic optical waveguides using the fi...
FEM has been applied to obtain the 3-dim. eigenmode of the rectangular resonant cavity. The vector H...
This work addresses the numerical solution of the differential cavity problem arising from Maxwell e...
We propose a vectorial perturbation theory for axially symmetric, generally nonspherical whispering ...
Mesh truncation in finite element vectorial modal analysis of dielectric waveguides is performed by ...
Mesh truncation in finite element vectorial modal analysis of dielectric waveguides is performed by ...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...
In this work, a dielectric waveguide mode solver is presented considering a general nonreciprocal pe...