Envelope Overshooting in Low Metallicity Intermediate- and High-mass Stars: a test with the Sagittarius Dwarf Irregular Galaxy

Abstract

We check the performance of the \,PARSEC tracks in reproducing the blue loops of intermediate age and young stellar populations at very low metallicity. We compute new evolutionary \,PARSEC tracks of intermediate- and high-mass stars from 2 to 350 with enhanced envelope overshooting (EO), EO=2 and 4, for very low metallicity, Z=0.0005. The input physics, including the mass-loss rate, has been described in \,PARSEC~V1.2 version. By comparing the synthetic color-magnitude diagrams (CMDs) obtained from the different sets of models with envelope overshooting EO=0.7 (the standard \,PARSEC tracks), 2 and 4, with deep observations of the Sagittarius dwarf irregular galaxy (SagDIG), we find an overshooting scale EO=2 to best reproduce the observed loops. This result is consistent with that obtained by Tangetal14 for Z in the range 0.001-0.004. We also discuss the dependence of the blue loop extension on the adopted instability criterion and find that, contrary to what stated in literature, the Schwarzschild criterion, instead of the Ledoux criterion, favours the development of blue loops. Other factors that could affect the CMD comparisons such as differential internal extinction or the presence of binary systems are found to have negligible effects on the results. We thus confirm that, in presence of core overshooting during the H-burning phase, a large envelope overshooting is needed to reproduce the main features of the central He-burning phase of intermediate- and high-mass stars.