We present an adaptive multiresolution method for the numerical simulation of ideal magnetohydrodynamics in two space dimensions. The discretization uses a finite volume scheme based on a Cartesian mesh and an explicit compact Runge–Kutta scheme for time integration. Harten's cell average multiresolution allows to introduce a locally refined spatial mesh while controlling the error. The incompressibility of the magnetic field is controlled by using a Generalized Lagrangian Multiplier (GLM) approach with a mixed hyperbolic–parabolic correction. Different applications to two-dimensional problems illustrate the properties of the method. For each application CPU time and memory savings are reported and numerical aspects of the method are discus...
The paper presents two contributions in the context of the numerical simulation of magnetized fluid ...
We present an algorithm for simulating the equations of ideal magnetohydrodynamics and other systems...
In this article we implement a variant space–time conservation element and solution element (CE/SE) ...
International audienceWe present an adaptive multiresolution method for the numerical simulation of ...
We present a new adaptive multiresoltion method for the numerical simulation of ideal magn...
Abstract — On this work we present an adaptive bi-dimensional ideal magnetohydrodynamics (MHD) model...
We present an adaptive parallel solver for the numerical simulation of ideal magnetohydrodynamics in...
International audienceMagneto hydrodynamics is an important tool to study the dynamics of Space Phys...
This paper presents an adaptive moving mesh algorithm for two-dimensional (2D) ideal magnetohydrodyn...
Abstract—A 3-D parallel adaptive mesh refinement (AMR) scheme is described for solving the partial-d...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77232/1/AIAA-1999-3273-200.pd
This paper develops an adaptive moving mesh method for two-dimensional ideal relativistic magnetohyd...
During the simulations of the magnetohydrodynamic equations, numerical errors might cause the format...
We present the implementation of a three-dimensional, second-order accurate Godunov-type algorithm f...
An adaptive grid technique for use in the solution of multi-dimensional time-dependent PDEs is appli...
The paper presents two contributions in the context of the numerical simulation of magnetized fluid ...
We present an algorithm for simulating the equations of ideal magnetohydrodynamics and other systems...
In this article we implement a variant space–time conservation element and solution element (CE/SE) ...
International audienceWe present an adaptive multiresolution method for the numerical simulation of ...
We present a new adaptive multiresoltion method for the numerical simulation of ideal magn...
Abstract — On this work we present an adaptive bi-dimensional ideal magnetohydrodynamics (MHD) model...
We present an adaptive parallel solver for the numerical simulation of ideal magnetohydrodynamics in...
International audienceMagneto hydrodynamics is an important tool to study the dynamics of Space Phys...
This paper presents an adaptive moving mesh algorithm for two-dimensional (2D) ideal magnetohydrodyn...
Abstract—A 3-D parallel adaptive mesh refinement (AMR) scheme is described for solving the partial-d...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77232/1/AIAA-1999-3273-200.pd
This paper develops an adaptive moving mesh method for two-dimensional ideal relativistic magnetohyd...
During the simulations of the magnetohydrodynamic equations, numerical errors might cause the format...
We present the implementation of a three-dimensional, second-order accurate Godunov-type algorithm f...
An adaptive grid technique for use in the solution of multi-dimensional time-dependent PDEs is appli...
The paper presents two contributions in the context of the numerical simulation of magnetized fluid ...
We present an algorithm for simulating the equations of ideal magnetohydrodynamics and other systems...
In this article we implement a variant space–time conservation element and solution element (CE/SE) ...