International audienceNew high-resolution spectropolarimetric observations of solar prominences require improved radiative modelling capabilities in order to take into account both multi-dimensional - at least 2D - geometry and complex atomic models. This makes necessary the use of very fast numerical schemes for the resolution of 2D non-LTE radiative transfer problems considering freestanding and illuminated slabs. The implementation of Gauss-Seidel and successive over-relaxation iterative schemes in 2D, together with a multi-grid algorithm, is thoroughly described in the frame of the short characteristics method for the computation of the formal solution of the radiative transfer equation in cartesian geometry. We propose a new test for m...
Solving the non-LTE radiative transfer problem in stellar atmospheres is computationally demanding. ...
Tests are presented of the 1D Accelerated Lambda Iteration method, which is widely used for solving ...
The development of fast numerical methods for multilevel radiative transfer (RT) applications often ...
International audienceNew high-resolution spectropolarimetric observations of solar prominences requ...
Context.New high-resolution spectropolarimetric observations of solar prominences require improved ...
Studying solar prominences is potentially of great interest in the field of “space weather ” but mod...
International audienceContext: The interpretation of high-resolution spectropolarimetric observation...
The vast majority of recent advances in the field of numerical radiative transfer relies on approxim...
Three-dimensional radiative transfer calculations involve extensive amounts of computation. These ca...
Radiative transfer is an essential theory in astrophysics. Developing new realistic numerical tools,...
Results of an extensive validation study of the new radiative transfer code SHARM-3D are described. ...
Context. 3D non-LTE radiative transfer problems are computationally demanding, and this sets limits ...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
Abstract. The development of fast numerical methods for multilevel radiative transfer (RT) applicati...
The development of fast numerical methods for multilevel radiative transfer (RT) applications often ...
Solving the non-LTE radiative transfer problem in stellar atmospheres is computationally demanding. ...
Tests are presented of the 1D Accelerated Lambda Iteration method, which is widely used for solving ...
The development of fast numerical methods for multilevel radiative transfer (RT) applications often ...
International audienceNew high-resolution spectropolarimetric observations of solar prominences requ...
Context.New high-resolution spectropolarimetric observations of solar prominences require improved ...
Studying solar prominences is potentially of great interest in the field of “space weather ” but mod...
International audienceContext: The interpretation of high-resolution spectropolarimetric observation...
The vast majority of recent advances in the field of numerical radiative transfer relies on approxim...
Three-dimensional radiative transfer calculations involve extensive amounts of computation. These ca...
Radiative transfer is an essential theory in astrophysics. Developing new realistic numerical tools,...
Results of an extensive validation study of the new radiative transfer code SHARM-3D are described. ...
Context. 3D non-LTE radiative transfer problems are computationally demanding, and this sets limits ...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
Abstract. The development of fast numerical methods for multilevel radiative transfer (RT) applicati...
The development of fast numerical methods for multilevel radiative transfer (RT) applications often ...
Solving the non-LTE radiative transfer problem in stellar atmospheres is computationally demanding. ...
Tests are presented of the 1D Accelerated Lambda Iteration method, which is widely used for solving ...
The development of fast numerical methods for multilevel radiative transfer (RT) applications often ...