Abstract
The aim of this report is to validate the program MAX3D built up from the discretization of the formulation (FB) established in part 1. A qualitative and quantitative analysis is carried out on numerical results obtained with various test cases of which, for most of them, analytical solutions are known. 32 figs., 3 refs.
Citation Formats
Heintze, E.
Numerical resolution of the time-domain three-dimensional Maxwell equations by a conform finite element approximation. Part II: numerical results; Resolution des equations de Maxwell instationnaires par une methode d`elements finis conformes 3D. 2eme partie: resultats numeriques.
France: N. p.,
1993.
Web.
Heintze, E.
Numerical resolution of the time-domain three-dimensional Maxwell equations by a conform finite element approximation. Part II: numerical results; Resolution des equations de Maxwell instationnaires par une methode d`elements finis conformes 3D. 2eme partie: resultats numeriques.
France.
Heintze, E.
1993.
"Numerical resolution of the time-domain three-dimensional Maxwell equations by a conform finite element approximation. Part II: numerical results; Resolution des equations de Maxwell instationnaires par une methode d`elements finis conformes 3D. 2eme partie: resultats numeriques."
France.
@misc{etde_10103971,
title = {Numerical resolution of the time-domain three-dimensional Maxwell equations by a conform finite element approximation. Part II: numerical results; Resolution des equations de Maxwell instationnaires par une methode d`elements finis conformes 3D. 2eme partie: resultats numeriques}
author = {Heintze, E}
abstractNote = {The aim of this report is to validate the program MAX3D built up from the discretization of the formulation (FB) established in part 1. A qualitative and quantitative analysis is carried out on numerical results obtained with various test cases of which, for most of them, analytical solutions are known. 32 figs., 3 refs.}
place = {France}
year = {1993}
month = {Dec}
}
title = {Numerical resolution of the time-domain three-dimensional Maxwell equations by a conform finite element approximation. Part II: numerical results; Resolution des equations de Maxwell instationnaires par une methode d`elements finis conformes 3D. 2eme partie: resultats numeriques}
author = {Heintze, E}
abstractNote = {The aim of this report is to validate the program MAX3D built up from the discretization of the formulation (FB) established in part 1. A qualitative and quantitative analysis is carried out on numerical results obtained with various test cases of which, for most of them, analytical solutions are known. 32 figs., 3 refs.}
place = {France}
year = {1993}
month = {Dec}
}