International audienceThe shallow water magnetohydrodynamic system involves several families of physically relevant steady states. In this paper we design a well-balanced numerical scheme for the one-dimensional shallow water magnetohydrodynamic system with topography, that resolves exactly a large range of steady states. Two variants are proposed with slightly different families of preserved steady states. They are obtained by a generalized hydrostatic reconstruction algorithm involving the magnetic field and with a cutoff parameter to remove singularities. The solver is positive in height and semi-discrete entropy satisfying, which ensures the robustness of the method
Abstract. A good numerical method for the Saint-Venant system of shallow water equations must be wel...
A kinetic flux-vector splitting (KFVS) scheme for the shallow water magnetohydrodynamic (SWMHD) equa...
Context. Many astrophysical processes involving plasma flows are produced in the context of a gravit...
Abstract. We consider the Saint-Venant system for shallow water flows, with nonflat bottom. It is a ...
In this work, we design an entropy stable, finite volume approximation for the shallow water magneto...
Abstract: In this paper the technique of the solution of the ideal magnetohydrodynamic equ...
International audienceThe numerical resolution of the multi-layer shallow water system encounters tw...
International audienceWe consider the Saint-Venant system for shallow water flows with nonflat botto...
We build and analyze mathematically numerical approximations by finite volume methods of weak soluti...
International audienceThe shallow water magnetohydrodynamic system describes the thin layer evolutio...
International audienceWe consider the shallow-water equations with Manning friction and topography s...
A non-negativity preserving and well-balanced scheme that exactly preserves all the smooth steady s...
International audienceWe develop a two-dimensional high-order numerical scheme that exactly preserve...
This paper presents the head reconstruction method HRM, a new technique that can be used within the ...
In this paper we propose a new finite volume evolution Galerkin(FVEG) scheme for the shallow water m...
Abstract. A good numerical method for the Saint-Venant system of shallow water equations must be wel...
A kinetic flux-vector splitting (KFVS) scheme for the shallow water magnetohydrodynamic (SWMHD) equa...
Context. Many astrophysical processes involving plasma flows are produced in the context of a gravit...
Abstract. We consider the Saint-Venant system for shallow water flows, with nonflat bottom. It is a ...
In this work, we design an entropy stable, finite volume approximation for the shallow water magneto...
Abstract: In this paper the technique of the solution of the ideal magnetohydrodynamic equ...
International audienceThe numerical resolution of the multi-layer shallow water system encounters tw...
International audienceWe consider the Saint-Venant system for shallow water flows with nonflat botto...
We build and analyze mathematically numerical approximations by finite volume methods of weak soluti...
International audienceThe shallow water magnetohydrodynamic system describes the thin layer evolutio...
International audienceWe consider the shallow-water equations with Manning friction and topography s...
A non-negativity preserving and well-balanced scheme that exactly preserves all the smooth steady s...
International audienceWe develop a two-dimensional high-order numerical scheme that exactly preserve...
This paper presents the head reconstruction method HRM, a new technique that can be used within the ...
In this paper we propose a new finite volume evolution Galerkin(FVEG) scheme for the shallow water m...
Abstract. A good numerical method for the Saint-Venant system of shallow water equations must be wel...
A kinetic flux-vector splitting (KFVS) scheme for the shallow water magnetohydrodynamic (SWMHD) equa...
Context. Many astrophysical processes involving plasma flows are produced in the context of a gravit...