Abstract
This report presents a numerical model to simulate the electromagnetic processes involved by electrically-charged relativistic fluids. The physical model is first given. Second, the numerical methods are explained with the various packages of the code RHEA, with indication methods are explained with the various packages of the code RHEA, with indication of its performances, within a 1.5.- dimensional framework. Results from test-simulations are shown to validate the use of the code, for both academic situations and realistic context of laser-plasma interaction, for which the code has been designed: the non-linear phenomena in the context of inertial confinement fusion and the ultra-intense laser pulses. (author) 25 refs.
Bonnaud, G;
Dussy, S;
Lefebvre, E;
[1]
Bouchut, F
[2]
- CEA Bruyeres-le-Chatel, 91 (France). Dept. de Physique Theorique et Appliquee
- Orleans Univ., 45 (France). Dept. de Mathematiques, UMR CNRS
Citation Formats
Bonnaud, G, Dussy, S, Lefebvre, E, and Bouchut, F.
Electromagnetic behaviour of a plasma in fluid and relativistic regimes: simulation code R H E A; Comportement electromagnetique d`un plasma en regimes hydrodynamique et relativiste: code de simulation R H E A.
France: N. p.,
1998.
Web.
Bonnaud, G, Dussy, S, Lefebvre, E, & Bouchut, F.
Electromagnetic behaviour of a plasma in fluid and relativistic regimes: simulation code R H E A; Comportement electromagnetique d`un plasma en regimes hydrodynamique et relativiste: code de simulation R H E A.
France.
Bonnaud, G, Dussy, S, Lefebvre, E, and Bouchut, F.
1998.
"Electromagnetic behaviour of a plasma in fluid and relativistic regimes: simulation code R H E A; Comportement electromagnetique d`un plasma en regimes hydrodynamique et relativiste: code de simulation R H E A."
France.
@misc{etde_10147055,
title = {Electromagnetic behaviour of a plasma in fluid and relativistic regimes: simulation code R H E A; Comportement electromagnetique d`un plasma en regimes hydrodynamique et relativiste: code de simulation R H E A}
author = {Bonnaud, G, Dussy, S, Lefebvre, E, and Bouchut, F}
abstractNote = {This report presents a numerical model to simulate the electromagnetic processes involved by electrically-charged relativistic fluids. The physical model is first given. Second, the numerical methods are explained with the various packages of the code RHEA, with indication methods are explained with the various packages of the code RHEA, with indication of its performances, within a 1.5.- dimensional framework. Results from test-simulations are shown to validate the use of the code, for both academic situations and realistic context of laser-plasma interaction, for which the code has been designed: the non-linear phenomena in the context of inertial confinement fusion and the ultra-intense laser pulses. (author) 25 refs.}
place = {France}
year = {1998}
month = {Dec}
}
title = {Electromagnetic behaviour of a plasma in fluid and relativistic regimes: simulation code R H E A; Comportement electromagnetique d`un plasma en regimes hydrodynamique et relativiste: code de simulation R H E A}
author = {Bonnaud, G, Dussy, S, Lefebvre, E, and Bouchut, F}
abstractNote = {This report presents a numerical model to simulate the electromagnetic processes involved by electrically-charged relativistic fluids. The physical model is first given. Second, the numerical methods are explained with the various packages of the code RHEA, with indication methods are explained with the various packages of the code RHEA, with indication of its performances, within a 1.5.- dimensional framework. Results from test-simulations are shown to validate the use of the code, for both academic situations and realistic context of laser-plasma interaction, for which the code has been designed: the non-linear phenomena in the context of inertial confinement fusion and the ultra-intense laser pulses. (author) 25 refs.}
place = {France}
year = {1998}
month = {Dec}
}