Add to ORKGThe effects of rapid rotation and bi-stability upon the density contrast between the equatorial and polar directions of a B[e] supergiant are re-investigated. Based on a new slow solution for different high rotational radiation-driven winds and the fact that bi-stability allows a change in the line-force parameters (α, k, and δ), the equatorial densities are about 102-104 times higher than the polar ones. These values are in qualitative agreement with the observations.Facultad de Ciencias Astronómicas y Geofísica
Context.B[e] supergiants are known to possess geometrically thick dusty disks. Disk-forming wind mod...
Two models of the circumstellar disc around supergiant B[e] stars are discussed: an equatorial wind ...
As the disk formation mechanism(s) in Be stars is(are) as yet unknown, we investigate the role of ra...
The effects of rapid rotation and bi-stability upon the density contrast between the equatorial and ...
The effects of rapid rotation and bi-stability upon the density contrast between the equatorial and ...
The effects of rapid rotation and bi-stability upon the density contrast between the equatorial and ...
The effects of rapid rotation and bi--stability upon the density contrast between the equatorial and...
Context: B[e] supergiants are known to possess non-spherical winds, and the existence of disks which...
The disc formation mechanism of B[e] supergiants is one of the puzzling phenomena in massive star ev...
Context.B[e] supergiants are known to have non-spherical winds, and the existence of disks that are ...
We analyze the steady 1D flow equations for a rotating stellar wind based on a ``nozzle'' analogy fo...
As the disk formation mechanism(s) in Be stars is(are) as yet unknown, we investigate the role of ra...
The stellar wind of the rapidly rotating early-B supergiant, gamma Ara, is studied using time series...
We study the origin of the observed bi-stability jump in the terminal velocity of the winds of super...
The location of B supergiants in the Hertzsprung-Russell diagram (HRD) represents a long-standing pr...
Context.B[e] supergiants are known to possess geometrically thick dusty disks. Disk-forming wind mod...
Two models of the circumstellar disc around supergiant B[e] stars are discussed: an equatorial wind ...
As the disk formation mechanism(s) in Be stars is(are) as yet unknown, we investigate the role of ra...
The effects of rapid rotation and bi-stability upon the density contrast between the equatorial and ...
The effects of rapid rotation and bi-stability upon the density contrast between the equatorial and ...
The effects of rapid rotation and bi-stability upon the density contrast between the equatorial and ...
The effects of rapid rotation and bi--stability upon the density contrast between the equatorial and...
Context: B[e] supergiants are known to possess non-spherical winds, and the existence of disks which...
The disc formation mechanism of B[e] supergiants is one of the puzzling phenomena in massive star ev...
Context.B[e] supergiants are known to have non-spherical winds, and the existence of disks that are ...
We analyze the steady 1D flow equations for a rotating stellar wind based on a ``nozzle'' analogy fo...
As the disk formation mechanism(s) in Be stars is(are) as yet unknown, we investigate the role of ra...
The stellar wind of the rapidly rotating early-B supergiant, gamma Ara, is studied using time series...
We study the origin of the observed bi-stability jump in the terminal velocity of the winds of super...
The location of B supergiants in the Hertzsprung-Russell diagram (HRD) represents a long-standing pr...
Context.B[e] supergiants are known to possess geometrically thick dusty disks. Disk-forming wind mod...
Two models of the circumstellar disc around supergiant B[e] stars are discussed: an equatorial wind ...
As the disk formation mechanism(s) in Be stars is(are) as yet unknown, we investigate the role of ra...