Calibrating Eruptive Mass Loss in Red Supergiants with Local Group Data

Abstract

We calibrate a physically motivated, super-Eddington eruptive mass-loss prescription for red supergiants (RSGs) using Local Group stellar populations. Building on MESA models that add eruptive mass loss with a free scaling parameter ξ, we generate stellar evolution tracks and isochrones, and synthesize mock populations at metallicities of Z/Z=0.2,\ 0.4, and 1.0. We compare model luminosity functions to observations of RSGs in the SMC, LMC, and M31, restricting to 3.5< T eff/K<3.75 and (L/L)>4.5. By-eye fits to the observations yield values of ξSMC=0.0-0.05, ξLMC=0.1, and ξM31=0.35, implying a positive, linear trend between the strength of eruptive mass-loss and metallicity. This calibrated eruptive mass loss prevents stars with initial masses 20~M from evolving to become red supergiants, with implications for the mass spectrum of core-collapse progenitors, compact remnants, early supernova interaction signatures, and the spectral energy distributions of unresolved galaxies.