2020MNRAS.492.5994B -
Mon. Not. R. Astron. Soc., 492, 5994-6006 (2020/March-2)
A new mass-loss rate prescription for red supergiants.
BEASOR E.R., DAVIES B., SMITH N., VAN LOON J.T., GEHRZ R.D. and FIGER D.F.
Abstract (from CDS):
Evolutionary models have shown the substantial effect that strong mass-loss rates ({dot}Ms) can have on the fate of massive stars. Red supergiant (RSG) mass-loss is poorly understood theoretically, and so stellar models rely on purely empirical {dot}M-luminosity relations to calculate evolution. Empirical prescriptions usually scale with luminosity and effective temperature, but {dot}M should also depend on the current mass and hence the surface gravity of the star, yielding more than one possible {dot}M for the same position on the Hertzsprung-Russell diagram. One can solve this degeneracy by measuring {dot}M for RSGs that reside in clusters, where age and initial mass (Minit) are known. In this paper we derive {dot}M values and luminosities for RSGs in two clusters, NGC 2004 and RSGC1. Using newly derived Minit measurements, we combine the results with those of clusters with a range of ages and derive an Minit-dependent {dot}M prescription. When comparing this new prescription to the treatment of mass-loss currently implemented in evolutionary models, we find models drastically overpredict the total mass-loss, by up to a factor of 20. Importantly, the most massive RSGs experience the largest downward revision in their mass-loss rates, drastically changing the impact of wind mass-loss on their evolution. Our results suggest that for most initial masses of RSG progenitors, quiescent mass-loss during the RSG phase is not effective at removing a significant fraction of the H-envelope prior to core-collapse, and we discuss the implications of this for stellar evolution and observations of SNe and SN progenitors.
Abstract Copyright:
© 2020 The Author(s) Published by Oxford University Press on behalf of the Royal Astronomical Society
Journal keyword(s):
stars: evolution - stars: massive - stars: mass-loss - supergiants - galaxies: clusters: individual
Errata:
erratum vol. 524, p. 2460 (2023)
Simbad objects:
28
Full paper
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