Add to ORKGInternational audienceThe diffusion limit of the linear Boltzmann equation with a strong magnetic field is performed. The giration period of particles around the magnetic field is assumed to be much smaller than the collision relaxation time which is supposed to be much smaller than the macroscopic time. The limiting equation is shown to be a diffusion equation in the parallel direction while in the orthogonal direction, the guiding center motion is obtained. The diffusion constant in the parallel direction is obtained through the study of a new collision operator obtained by averaging the original one. Moreover, a correction to the guiding center motion is derived
The transport of charged particles diffusing in a random magnetic field parallel to a relatively lar...
One of the main applications in plasma physics concerns the energy production through thermo-nuclear...
We examine the traditional transport equation for classical, charged particles diffusing in a cold, ...
International audienceThe diffusion limit of the linear Boltzmann equation with a strong magnetic fi...
In this paper we study the asymptotic behavior of the Vlasov-Maxwell equations with strong magnetic ...
International audienceThe subject matter of this paper concerns the paraxial approximation for the t...
The main subject of this thesis is the gyro-kinetic equation. We present a rigourousdeveloppement of...
International audienceThe subject matter of this paper concerns the derivation of the finite Lar-mor...
AbstractThis paper establishes various asymptotic limits of the Vlasov–Poisson equation with strong ...
When charged particles move in a random magnetic field superimposed upon a relatively large constant...
We numerically simulated the diffusion of a charged Brownian particle confined to a plane under the ...
This article is concerned with the kinetic modeling, by means of the Vlasov equation, of charged par...
International audienceOne of the main applications in plasma physics concerns the energy production ...
International audienceThe energy production through thermonuclear fusion requires the confinement of...
International audienceIn this paper we establish the asymptotic limit of the three dimensional Vlaso...
The transport of charged particles diffusing in a random magnetic field parallel to a relatively lar...
One of the main applications in plasma physics concerns the energy production through thermo-nuclear...
We examine the traditional transport equation for classical, charged particles diffusing in a cold, ...
International audienceThe diffusion limit of the linear Boltzmann equation with a strong magnetic fi...
In this paper we study the asymptotic behavior of the Vlasov-Maxwell equations with strong magnetic ...
International audienceThe subject matter of this paper concerns the paraxial approximation for the t...
The main subject of this thesis is the gyro-kinetic equation. We present a rigourousdeveloppement of...
International audienceThe subject matter of this paper concerns the derivation of the finite Lar-mor...
AbstractThis paper establishes various asymptotic limits of the Vlasov–Poisson equation with strong ...
When charged particles move in a random magnetic field superimposed upon a relatively large constant...
We numerically simulated the diffusion of a charged Brownian particle confined to a plane under the ...
This article is concerned with the kinetic modeling, by means of the Vlasov equation, of charged par...
International audienceOne of the main applications in plasma physics concerns the energy production ...
International audienceThe energy production through thermonuclear fusion requires the confinement of...
International audienceIn this paper we establish the asymptotic limit of the three dimensional Vlaso...
The transport of charged particles diffusing in a random magnetic field parallel to a relatively lar...
One of the main applications in plasma physics concerns the energy production through thermo-nuclear...
We examine the traditional transport equation for classical, charged particles diffusing in a cold, ...