We present a three-dimensional model based on the finite-element method for solving the time harmonic Maxwell equation in optics. It applies to isotropic or anisotropic dielectrics and metals and to many configurations such as an isolated scatterer in a multilayer, bi-gratings, and crystals. We discuss the application of the model to near-field optical recording
International audienceWe compare the numerical results obtained by the Finite Element Method (FEM) a...
A finite element method for solving the monochromatic radiation transfer equation including scatteri...
Maxwell solvers based on the hp adaptive finite element method allow for accurate geometrical modeli...
We present a three-dimensional model based on the finite-element method for solving the time harmoni...
We present a three-dimensional model based on the finite element method for solving the time-harmoni...
AbstractConsider a time-harmonic electromagnetic plane wave incident on a periodic (grating) structu...
This paper aims to present a finite element time domain method for analyzing inhomogeneous anisotrop...
The finite element method (FEM) is presented as an efficient technique for modelling photonic crysta...
This second volume in the Progress in Electromagnetic Research series examines recent advances in co...
We present a new method to simulate optical waves on large geometries. This method is based on newly...
In design and optimization of electrical machines, accurate models of the electromagnetic fields are...
Monk, Peter B.Scattering and inverse scattering theory plays a central role in mathematical physics....
The main objective of this work was the development of a mathematical model for light propagation in...
In this paper we present a mathematical three-dimensional model for numerical calculations of near-f...
A new vector simulator to analyse time-domain electromagnetic field propagation in optical structure...
International audienceWe compare the numerical results obtained by the Finite Element Method (FEM) a...
A finite element method for solving the monochromatic radiation transfer equation including scatteri...
Maxwell solvers based on the hp adaptive finite element method allow for accurate geometrical modeli...
We present a three-dimensional model based on the finite-element method for solving the time harmoni...
We present a three-dimensional model based on the finite element method for solving the time-harmoni...
AbstractConsider a time-harmonic electromagnetic plane wave incident on a periodic (grating) structu...
This paper aims to present a finite element time domain method for analyzing inhomogeneous anisotrop...
The finite element method (FEM) is presented as an efficient technique for modelling photonic crysta...
This second volume in the Progress in Electromagnetic Research series examines recent advances in co...
We present a new method to simulate optical waves on large geometries. This method is based on newly...
In design and optimization of electrical machines, accurate models of the electromagnetic fields are...
Monk, Peter B.Scattering and inverse scattering theory plays a central role in mathematical physics....
The main objective of this work was the development of a mathematical model for light propagation in...
In this paper we present a mathematical three-dimensional model for numerical calculations of near-f...
A new vector simulator to analyse time-domain electromagnetic field propagation in optical structure...
International audienceWe compare the numerical results obtained by the Finite Element Method (FEM) a...
A finite element method for solving the monochromatic radiation transfer equation including scatteri...
Maxwell solvers based on the hp adaptive finite element method allow for accurate geometrical modeli...
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