Add to ORKGOver the last years a new generation of model atmosphere codes, which include the effects of metal line-blanketing of millions of spectral lines in NLTE, has been used to re-determine the properties of massive stars through quantitative spectral analysis methods applied to optical, IR and UV spectra. This has resulted in a significant change of the effective temperature scale of early type stars and a revision of mass-loss rates. Observed mass-loss rates and effective temperatures depend strongly on metallicity, both in agreement with theoretical predictions. The new model atmospheres in conjunction with the new generation of 10m-class telescopes equipped with efficient multi-object spectrographs have made it possible to study blue supergia...
We present new or improved methods for calculating NLTE, line-blanketed model atmospheres for hot st...
Mass loss through stellar winds plays a dominant role in the evolution of massive stars. In particul...
Context. Spectroscopic analysis remains the most common method to derive masses of massive stars, th...
In Schaerer et al. (1995, Paper I) we have presented the first "combined stellar structure and atmos...
We present a new model atmosphere analysis of nine central stars of planetary nebulae. This study is...
Photospheric radiation momentum is efficiently transferred by absorption through metal lines to the ...
Context. Reliable predictions of mass-loss rates are important for massive-star evolution computatio...
The phenomenon of mass loss and stellar winds from hot stars are discussed. The mass loss rate of ea...
Context. Stars with masses in excess of 100 M⊙ are observed in the Local Universe, but they remain r...
In the last few years our knowledge of the physics of massive stars has improved tremendously. Howev...
Spectroscopic analyses with the intention of the interpretation of the UV-spectra of the brightest s...
Massive stars are key components of galaxies. Characterized by high luminosities and strong outflows...
We present the results of Monte Carlo mass-loss predictions for massive stars covering a wide range ...
The properties of the chromospheres, transition regions and coronas of cool evolved stars are review...
Uncertainties in the post main sequence evolution of B supergiant stars exist because their evolutio...
We present new or improved methods for calculating NLTE, line-blanketed model atmospheres for hot st...
Mass loss through stellar winds plays a dominant role in the evolution of massive stars. In particul...
Context. Spectroscopic analysis remains the most common method to derive masses of massive stars, th...
In Schaerer et al. (1995, Paper I) we have presented the first "combined stellar structure and atmos...
We present a new model atmosphere analysis of nine central stars of planetary nebulae. This study is...
Photospheric radiation momentum is efficiently transferred by absorption through metal lines to the ...
Context. Reliable predictions of mass-loss rates are important for massive-star evolution computatio...
The phenomenon of mass loss and stellar winds from hot stars are discussed. The mass loss rate of ea...
Context. Stars with masses in excess of 100 M⊙ are observed in the Local Universe, but they remain r...
In the last few years our knowledge of the physics of massive stars has improved tremendously. Howev...
Spectroscopic analyses with the intention of the interpretation of the UV-spectra of the brightest s...
Massive stars are key components of galaxies. Characterized by high luminosities and strong outflows...
We present the results of Monte Carlo mass-loss predictions for massive stars covering a wide range ...
The properties of the chromospheres, transition regions and coronas of cool evolved stars are review...
Uncertainties in the post main sequence evolution of B supergiant stars exist because their evolutio...
We present new or improved methods for calculating NLTE, line-blanketed model atmospheres for hot st...
Mass loss through stellar winds plays a dominant role in the evolution of massive stars. In particul...
Context. Spectroscopic analysis remains the most common method to derive masses of massive stars, th...