Add to ORKGContext. Massive stars play a dominant role in the Universe, but one of the main drivers for their evolution, their mass loss, remains poorly understood. Aims. In this study, we test the theoretically predicted mass-loss behaviour as a function of stellar effective temperature across the so-called "bi-stability" jump. Methods. We observe OB supergiants in the spectral range 08-B3 at radio wavelengths to measure their thermal radio flux densities, and complement these measurements with data from the literature. We derive the radio mass-loss rates and wind efficiencies, and compare our results with Hα- mass-loss rates and predictions based on radiation-driven wind models. Results. The wind efficiency shows the possible presence of a local max...
We provide global models of line-driven winds of B supergiants for metallicities corresponding to th...
We discuss recent evidence that currently accepted mass-loss rates may need to be revised downwards,...
Context. Mass loss from massive stars forms an important aspect of the evolution of massive stars, a...
Context. Massive stars play a dominant role in the Universe, but one of the main drivers for their e...
Context.Massive stars play a dominant role in the Universe, but one of the main drivers for their e...
We present the results of a first campaign of radio continuum observations toward supergiants with s...
We present the results of Monte Carlo mass-loss predictions for massive stars covering a wide range ...
Context. Reliable predictions of mass-loss rates are important for massive-star evolution computatio...
We study the origin of the observed bi-stability jump in the terminal velocity of the winds of super...
Mass loss through stellar winds plays a dominant role in the evolution of massive stars. In particul...
Massive stars have strong stellar winds that direct their evolution through the upper Hertzsprung-Ru...
A sample of OB stars (eleven Of, one O and one B supergiant) has been surveyed with the Australia Te...
Context. The behaviour of mass loss across the so-called bi-stability jump, where iron recombines fr...
The mass loss rates are derived for a number of unevolved O-type stars and a few WN stars from high ...
Context. Variable B supergiants (BSGs) constitute a heterogeneous group of stars with complex photom...
We provide global models of line-driven winds of B supergiants for metallicities corresponding to th...
We discuss recent evidence that currently accepted mass-loss rates may need to be revised downwards,...
Context. Mass loss from massive stars forms an important aspect of the evolution of massive stars, a...
Context. Massive stars play a dominant role in the Universe, but one of the main drivers for their e...
Context.Massive stars play a dominant role in the Universe, but one of the main drivers for their e...
We present the results of a first campaign of radio continuum observations toward supergiants with s...
We present the results of Monte Carlo mass-loss predictions for massive stars covering a wide range ...
Context. Reliable predictions of mass-loss rates are important for massive-star evolution computatio...
We study the origin of the observed bi-stability jump in the terminal velocity of the winds of super...
Mass loss through stellar winds plays a dominant role in the evolution of massive stars. In particul...
Massive stars have strong stellar winds that direct their evolution through the upper Hertzsprung-Ru...
A sample of OB stars (eleven Of, one O and one B supergiant) has been surveyed with the Australia Te...
Context. The behaviour of mass loss across the so-called bi-stability jump, where iron recombines fr...
The mass loss rates are derived for a number of unevolved O-type stars and a few WN stars from high ...
Context. Variable B supergiants (BSGs) constitute a heterogeneous group of stars with complex photom...
We provide global models of line-driven winds of B supergiants for metallicities corresponding to th...
We discuss recent evidence that currently accepted mass-loss rates may need to be revised downwards,...
Context. Mass loss from massive stars forms an important aspect of the evolution of massive stars, a...