Ignacio Negueruela
Published 2018-03-15Version 1
In the past few years, several clusters containing large numbers of red supergiants have been discovered. These clusters are amongst the most massive young clusters known in the Milky Way, with stellar masses reaching a few $10^4\:$M$_\odot$. They have provided us, for the first time, with large homogeneous samples of red supergiants of a given age. These large populations make them, despite heavy extinction along their sightlines, powerful laboratories to understand the evolutionary status of red supergiants. While some of the clusters, such as the eponymous RSGC1, are so obscured that their members are only observable in the near-IR, some of them are easily accessible, allowing for an excellent characterisation of cluster and stellar properties. The information gleaned so far from these clusters gives strong support to the idea that late-M type supergiants represent a separate class, characterised by very heavy mass loss. It also shows that the spectral-type distribution of red supergiants in the Milky Way is very strongly peaked towards M1, while suggesting a correlation between spectral type and evolutionary stage.
Comments: Summary of invited talk presented at the IAU XXIX General Assembly (Honolulu, 2015) in Focus Meeting 16 (Stellar Behemoths - Red Supergiants across the local Universe, conveyed by Ben Davies)
Journal: Astronomy in Focus, as presented at the IAU XXIX General Assembly, 2015. Proceedings of the IAU, Volume 29B, 2016, pp. 461-463
Table of Contents of: "Red Giants as Probes of the Structure and Evolution of the Milky Way"
A large and pristine sample of standard candles across the Milky Way: ~100,000 red clump stars with 3% contamination
Discovery of the Longest-Period Classical Cepheid in the Milky Way
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