Add to ORKGWe present self-consistent dynamical models for dust driven winds of carbon-rich AGB stars. The models are based on the coupled system of frequency-dependent radiation hydrodynamics and time-dependent dust formation. We investigate in detail how the wind properties of the models are influenced by the micro-physical properties of the dust grains that enter as parameters. The models are now at a level where it is necessary to be quantitatively consistent when choosing the dust properties that enters as input into the models. At our current level of sophistication the choice of dust parameters is significant for the derived outflow velocity, the degree of condensation and the estimated mass loss rates of the models. In the transition between m...
We present a new generation of model atmospheres for AGB stars which combine time-dependent dynamics...
Context. The stellar winds of asymptotic giant branch (AGB) stars are commonly attributed to radiati...
Following the red giant branch phase and the subsequent core He-burning phase, the low- to intermedi...
We present self-consistent dynamical models for dust-driven winds of carbon-rich AGB stars. The mode...
The intricate interplay of atmospheric shock waves and a complex, variable radiation field with non-...
Context. Knowing how the mass loss of carbon-rich AGB stars depends on stellar parameters is crucial...
Current knowledge suggests that the dust-driven wind scenario provides a realistic framework for und...
Context.Current knowledge suggests that the dust-driven wind scenario provides a realistic framewor...
New dynamical models for dust-driven winds of oxygen-rich AGB stars are presented which include freq...
Context. It is well established that the winds of carbon-rich AGB stars (carbon stars) can be driven...
Dust production in the wind of stars evolving through the asymptotic giant branch is investigated by...
For amorphous carbon several laboratory extinction data are available, which show quite a wide range...
Aims.It is commonly assumed that the massive winds of AGB stars are dust-driven and pulsation-enhan...
Stellar winds of cool and pulsating asymptotic giant branch (AGB) stars enrich the interstellar medi...
Aims. In this paper, we aim to constrain the dust mass and grain sizes in the interaction regions be...
We present a new generation of model atmospheres for AGB stars which combine time-dependent dynamics...
Context. The stellar winds of asymptotic giant branch (AGB) stars are commonly attributed to radiati...
Following the red giant branch phase and the subsequent core He-burning phase, the low- to intermedi...
We present self-consistent dynamical models for dust-driven winds of carbon-rich AGB stars. The mode...
The intricate interplay of atmospheric shock waves and a complex, variable radiation field with non-...
Context. Knowing how the mass loss of carbon-rich AGB stars depends on stellar parameters is crucial...
Current knowledge suggests that the dust-driven wind scenario provides a realistic framework for und...
Context.Current knowledge suggests that the dust-driven wind scenario provides a realistic framewor...
New dynamical models for dust-driven winds of oxygen-rich AGB stars are presented which include freq...
Context. It is well established that the winds of carbon-rich AGB stars (carbon stars) can be driven...
Dust production in the wind of stars evolving through the asymptotic giant branch is investigated by...
For amorphous carbon several laboratory extinction data are available, which show quite a wide range...
Aims.It is commonly assumed that the massive winds of AGB stars are dust-driven and pulsation-enhan...
Stellar winds of cool and pulsating asymptotic giant branch (AGB) stars enrich the interstellar medi...
Aims. In this paper, we aim to constrain the dust mass and grain sizes in the interaction regions be...
We present a new generation of model atmospheres for AGB stars which combine time-dependent dynamics...
Context. The stellar winds of asymptotic giant branch (AGB) stars are commonly attributed to radiati...
Following the red giant branch phase and the subsequent core He-burning phase, the low- to intermedi...