Add to ORKGWe present self-consistent solutions for the disk structure of classical Be stars. Our disk model is hydrostatically supported in the vertical direction and the radial structure is governed by viscosity (a-disks). We perform three-dimensional non-LTE Monte Carlo simulations to calculate simultaneously both the equilibrium temperature and Hydrogen level populations and to solve self-consistently for the density structure of the disk. We discuss the general properties of the solution for the disk structure and test our model against observations of d Scorpii. Our results confirm that a viscous decretion disk model is consistent with these observations
Be stars possess gaseous circumstellar decretion disks, which are well described using standard alph...
This thesis is divided into 3 investigations. First we present a novel method to estimate the openin...
While the presence of discs around classical Be stars is well established, their origin is still unc...
We discuss the basic hydrodynamics that determines the density structure of the disks around hot sta...
Using hydrodynamic principles we investigate the nature of the disk viscosity following the paramete...
Context. The viscous decretion disk (VDD) model is able to explain most of the currently observable ...
In "Viscous Decretion Disk" (VDD) model for circumstellar disks Be stars, material is dynamically ej...
Aims. In the context of Be stars, we re-studied the viscous transonic decretion disk model of these ...
Context. Evolution of massive stars is affected by a significant loss of mass either via (nearly) sp...
Classical Be stars are the only Main Sequence stars that possess Keplerian decretion circumstellar d...
The brightness and proximity of many classical Be stars makes them perfect laboratories for studying...
Context. About 2/3 of the Be stars present the so-called $V/R$ variations, a phenomenon characterize...
We use the three-dimensional Monte Carlo radiative transfer code HDUST to model Be stars where the d...
We present a model for the disk of the classical Be star $\zeta$ Tauri. The model consists of a Kepl...
There is an increasing body of evidence that suggests that Be disks are well described by the Viscou...
Be stars possess gaseous circumstellar decretion disks, which are well described using standard alph...
This thesis is divided into 3 investigations. First we present a novel method to estimate the openin...
While the presence of discs around classical Be stars is well established, their origin is still unc...
We discuss the basic hydrodynamics that determines the density structure of the disks around hot sta...
Using hydrodynamic principles we investigate the nature of the disk viscosity following the paramete...
Context. The viscous decretion disk (VDD) model is able to explain most of the currently observable ...
In "Viscous Decretion Disk" (VDD) model for circumstellar disks Be stars, material is dynamically ej...
Aims. In the context of Be stars, we re-studied the viscous transonic decretion disk model of these ...
Context. Evolution of massive stars is affected by a significant loss of mass either via (nearly) sp...
Classical Be stars are the only Main Sequence stars that possess Keplerian decretion circumstellar d...
The brightness and proximity of many classical Be stars makes them perfect laboratories for studying...
Context. About 2/3 of the Be stars present the so-called $V/R$ variations, a phenomenon characterize...
We use the three-dimensional Monte Carlo radiative transfer code HDUST to model Be stars where the d...
We present a model for the disk of the classical Be star $\zeta$ Tauri. The model consists of a Kepl...
There is an increasing body of evidence that suggests that Be disks are well described by the Viscou...
Be stars possess gaseous circumstellar decretion disks, which are well described using standard alph...
This thesis is divided into 3 investigations. First we present a novel method to estimate the openin...
While the presence of discs around classical Be stars is well established, their origin is still unc...