AbstractWe introduce the classical stellar atmosphere problem and describe in detail its numerical solution. The problem consists of the solution of the radiation transfer equations under the constraints of hydrostatic, radiative and statistical equilibrium (non-LTE). We outline the basic idea of the Accelerated Lambda Iteration (ALI) technique and statistical methods which finally allow the construction of non-LTE model atmospheres considering the influence of millions of metal absorption lines. Some applications of the new models are presented
The conditions of thermodynamic equilibrium, local thermodynamic equilibrium, and statistical equili...
During the last three decades, it has become increasingly clear that atmospheric modelling and remot...
My talk is intended to stimulate discussions about methods in radiativetransfer for hydrodynamical m...
We introduce the classical stellar atmosphere problem and describe in detail its numerical solution....
We address the classical stellar-atmosphere problem and describe our method of numerical solution in...
Tests are presented of the 1D Accelerated Lambda Iteration method, which is widely used for solving ...
We describe our method to construct line blanketed NLTE model atmospheres for hot stars. We employ t...
We come back to the analytical solution of the standard transfer problem in a stellar atmosphere. It...
International audienceContext: The solution of the nonlocal thermodynamical equilibrium (non-LTE)rad...
Context. The solution of the nonlocal thermodynamical equilibrium (non-LTE) radiative transfer equat...
In the stellar chromospheres, radiative energy transport is dominated by only the strongest spectral...
AbstractIn this paper we discuss numerical methods and algorithms for the solution of NLTE stellar a...
A fast, but accurate procedure to solve the equation of state for late-type stellar atmospheres is a...
We have developed a method for calculating deviations from LTE of level populations and profiles of ...
This review presents basic equations for the solution of the NLTE radiative transfer probl...
The conditions of thermodynamic equilibrium, local thermodynamic equilibrium, and statistical equili...
During the last three decades, it has become increasingly clear that atmospheric modelling and remot...
My talk is intended to stimulate discussions about methods in radiativetransfer for hydrodynamical m...
We introduce the classical stellar atmosphere problem and describe in detail its numerical solution....
We address the classical stellar-atmosphere problem and describe our method of numerical solution in...
Tests are presented of the 1D Accelerated Lambda Iteration method, which is widely used for solving ...
We describe our method to construct line blanketed NLTE model atmospheres for hot stars. We employ t...
We come back to the analytical solution of the standard transfer problem in a stellar atmosphere. It...
International audienceContext: The solution of the nonlocal thermodynamical equilibrium (non-LTE)rad...
Context. The solution of the nonlocal thermodynamical equilibrium (non-LTE) radiative transfer equat...
In the stellar chromospheres, radiative energy transport is dominated by only the strongest spectral...
AbstractIn this paper we discuss numerical methods and algorithms for the solution of NLTE stellar a...
A fast, but accurate procedure to solve the equation of state for late-type stellar atmospheres is a...
We have developed a method for calculating deviations from LTE of level populations and profiles of ...
This review presents basic equations for the solution of the NLTE radiative transfer probl...
The conditions of thermodynamic equilibrium, local thermodynamic equilibrium, and statistical equili...
During the last three decades, it has become increasingly clear that atmospheric modelling and remot...
My talk is intended to stimulate discussions about methods in radiativetransfer for hydrodynamical m...