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The Luminosity Function of Red Supergiants in M31

Kathryn F. Neugent, Philip Massey, C. Georgy, M. R. Drout, Michael Mommert, Emily M. Levesque, G. Meynet, Sylvia Ekström

2020The Astrophysical Journal39 citationsDOIOpen Access PDF

Abstract

Abstract The mass-loss rates of red supergiant stars (RSGs) are poorly constrained by direct measurements, and yet the subsequent evolution of these stars depends critically on how much mass is lost during the RSG phase. In 2012 the Geneva evolutionary group updated their mass-loss prescription for RSGs with the result that a 20 M ⊙ star now loses 10 times more mass during the RSG phase than in the older models. Thus, higher-mass RSGs evolve back through a second yellow supergiant phase rather than exploding as Type II-P supernovae, in accord with recent observations (the so-called “RSG Problem”). Still, even much larger mass-loss rates during the RSG phase cannot be ruled out by direct measurements of their current dust-production rates, as such mass loss is episodic. Here, we test the models by deriving a luminosity function for RSGs in the nearby spiral galaxy, M31, which is sensitive to the total mass loss during the RSG phase. We carefully separate RSGs from asymptotic giant branch stars in the color–magnitude diagram following the recent method exploited by Yang and collaborators in their Small Magellanic Cloud studies. Comparing our resulting luminosity function with that predicted by the evolutionary models shows that the new prescription for RSG mass loss does an excellent job of matching the observations, and we can readily rule out significantly larger values.

Topics & Concepts

Red supergiantAstrophysicsPhysicsSupergiantSupernovaStarsLuminosity functionAsymptotic giant branchGalaxyLuminosityInitial mass functionSpiral galaxyAstronomyStar formationStellar, planetary, and galactic studiesGalaxies: Formation, Evolution, PhenomenaGamma-ray bursts and supernovae