In this work, we present the diffusion approximation model for radiative transfer when we deal with optically thick astrophysical flows. Since the initial model is high CPU time demanding when dealing with its numerical approximation, solving this simpler system can provide a low cost strategy for the simulation of radiative media. We then use a finite-volume algorithm coupled with an implicit scheme for radiative contributions to solve this simplified system. Numerical experiments in the one-dimensional and two dimensional cases are presented to validate our numerical strategy and to prove the relevance of this asymptotic model
Context. Radiative transfer plays a crucial role in the star formation process. Because of the high ...
Accurate photometric and kinematic modelling of disc galaxies requires the inclusion of radiative tr...
Context. Radiative feedback plays a crucial role in the formation of massive stars. The implementati...
In this work, we present the diffusion approximation model for radiative transfer when we deal with ...
Aims. In this paper we present two efficient implementations of the diffusion approximation to be em...
The problem of radiative transfer describes the interaction between light and matte, therefore it ap...
29 pages, submitted to Journal of Computational physicsWe present in this paper the numerical treatm...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
Aims. General 3D astrophysical atmospheres will have random velocity fields. We seek to combine the ...
Radiative Transfer (RT) is considered to be one of the four Grand Challenges in Computational Astrop...
Aims. General 3D astrophysical atmospheres will have random velocity fields. We seek to combine the ...
Context. Studies of solar and stellar convection often employ simple polytropic setups using the dif...
For the rendering of multiple scattering effects in participating media, methods based on the diffus...
21 pages, 5 figuresInternational audienceWe present a ray-tracing technique for radiative transfer m...
Radiative transfer is introduced as one of the grand challenge problems in astrophysics due to its k...
Context. Radiative transfer plays a crucial role in the star formation process. Because of the high ...
Accurate photometric and kinematic modelling of disc galaxies requires the inclusion of radiative tr...
Context. Radiative feedback plays a crucial role in the formation of massive stars. The implementati...
In this work, we present the diffusion approximation model for radiative transfer when we deal with ...
Aims. In this paper we present two efficient implementations of the diffusion approximation to be em...
The problem of radiative transfer describes the interaction between light and matte, therefore it ap...
29 pages, submitted to Journal of Computational physicsWe present in this paper the numerical treatm...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
Aims. General 3D astrophysical atmospheres will have random velocity fields. We seek to combine the ...
Radiative Transfer (RT) is considered to be one of the four Grand Challenges in Computational Astrop...
Aims. General 3D astrophysical atmospheres will have random velocity fields. We seek to combine the ...
Context. Studies of solar and stellar convection often employ simple polytropic setups using the dif...
For the rendering of multiple scattering effects in participating media, methods based on the diffus...
21 pages, 5 figuresInternational audienceWe present a ray-tracing technique for radiative transfer m...
Radiative transfer is introduced as one of the grand challenge problems in astrophysics due to its k...
Context. Radiative transfer plays a crucial role in the star formation process. Because of the high ...
Accurate photometric and kinematic modelling of disc galaxies requires the inclusion of radiative tr...
Context. Radiative feedback plays a crucial role in the formation of massive stars. The implementati...