Add to ORKGPropagation of pulsational waves through the atmosphere of the M supergiant alpha Ori was explored using a time dependent hydrodynamic code. Wind properties for three FU Orionis objects were determined using radiative transfer models based on optical line profiles. The effects of varying wind temperature while keeping the velocity steady were considered. Using the premise that FU Orionis eruptions result from massive accretions from a disk into a T Tauri star explains a variety of observational peculiarities of FU Orionis objects
In this paper, we examine the mass loss mechanism of C-rich AGB stars by means of spherically symme...
The hottest and most massive stars (spectral types O, B, Wolf-Rayet) have strong stellar winds that ...
We present the results of a photometric monitoring campaign of three well-studied FU Orionis systems...
The atmospheres of hot pre-main sequence stars are discussed along with FU Orionis winds, h alpha em...
To show the difficulty of producing the blue-shifted emission of (O I) and (S II) from T Tauri stars...
It has been suggested that in outburst, FU Ori objects (FUors) are luminous accretion disks surround...
Context. For more than two decades, stellar atmosphere codes have been used to derive the stellar an...
A numerical hydrodynamics code is used to investigate two aspects of the winds of hot stars. The fir...
We present the first systematic study on spectroscopical indicators of stellar winds and mass-loss i...
Context. Wind-driving in asymptotic giant branch (AGB) stars is commonly attributed to a two-step pr...
Context. Radiation-driven mass loss plays a key role in the life cycles of massive stars. However, b...
Aims.This study seeks to provide empirical constraints on the different physical components that ca...
We present Keck Interferometer observations of the three prototypical FU Orionis stars, FU Ori, V105...
The following three publications which reference the above grant from the NASA Origins of Solar Syst...
Following a previous successful study, we present new and more complete interferometric observations...
In this paper, we examine the mass loss mechanism of C-rich AGB stars by means of spherically symme...
The hottest and most massive stars (spectral types O, B, Wolf-Rayet) have strong stellar winds that ...
We present the results of a photometric monitoring campaign of three well-studied FU Orionis systems...
The atmospheres of hot pre-main sequence stars are discussed along with FU Orionis winds, h alpha em...
To show the difficulty of producing the blue-shifted emission of (O I) and (S II) from T Tauri stars...
It has been suggested that in outburst, FU Ori objects (FUors) are luminous accretion disks surround...
Context. For more than two decades, stellar atmosphere codes have been used to derive the stellar an...
A numerical hydrodynamics code is used to investigate two aspects of the winds of hot stars. The fir...
We present the first systematic study on spectroscopical indicators of stellar winds and mass-loss i...
Context. Wind-driving in asymptotic giant branch (AGB) stars is commonly attributed to a two-step pr...
Context. Radiation-driven mass loss plays a key role in the life cycles of massive stars. However, b...
Aims.This study seeks to provide empirical constraints on the different physical components that ca...
We present Keck Interferometer observations of the three prototypical FU Orionis stars, FU Ori, V105...
The following three publications which reference the above grant from the NASA Origins of Solar Syst...
Following a previous successful study, we present new and more complete interferometric observations...
In this paper, we examine the mass loss mechanism of C-rich AGB stars by means of spherically symme...
The hottest and most massive stars (spectral types O, B, Wolf-Rayet) have strong stellar winds that ...
We present the results of a photometric monitoring campaign of three well-studied FU Orionis systems...