The evolution of Red Supergiant mass-loss rates

Abstract

The fate of massive stars with initial masses >8M depends largely on the mass-loss rate ( ) in the end stages of their lives. Red supergiants (RSGs) are the direct progenitors to Type II-P core collapse supernovae (SN), but there is uncertainty regarding the scale and impact of any mass-loss during this phase. Here we used near and mid-IR photometry and the radiative transfer code DUSTY to determine luminosity and \ values for the RSGs in two Galactic clusters (NGC 7419 and Per) where the RSGs are all of similar initial mass (M initial16M), allowing us to study how \ changes with time along an evolutionary sequence. We find a clear, tight correlation between luminosity and \ suggesting the scatter seen in studies of field stars is caused by stars of similar luminosity being of different initial masses. From our results we estimate how much mass a 16M star would lose during the RSG phase, finding a star of this mass would lose a total of 0.61+0.92-0.31M. This is much less than expected for \ prescriptions currently used in evolutionary models.