1. Grids of stellar models with rotation VII: models from 0.8 to 300 M⊙ at supersolar metallicity (Z = 0.020).
- Author
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Yusof, Norhasliza, Hirschi, Raphael, Eggenberger, Patrick, Ekström, Sylvia, Georgy, Cyril, Sibony, Yves, Crowther, Paul A, Meynet, Georges, Kassim, Hasan Abu, Harun, Wan Aishah Wan, Maeder, André, Groh, Jose H, Farrell, Eoin, and Murphy, Laura
- Subjects
STELLAR rotation ,STELLAR mass ,MASS loss (Astrophysics) ,STELLAR evolution ,SUPERGIANT stars - Abstract
We present a grid of stellar models at supersolar metallicity (Z = 0.020) extending the previous grids of Geneva models at solar and sub-solar metallicities. A metallicity of Z = 0.020 was chosen to match that of the inner Galactic disc. A modest increase of 43 per cent (= 0.02/0.014) in metallicity compared to solar models means that the models evolve similarly to solar models but with slightly larger mass-loss. Mass-loss limits the final total masses of the supersolar models to 35 M
⊙ even for stars with initial masses much larger than 100 M⊙ . Mass-loss is strong enough in stars above 20 M⊙ for rotating stars (25 M⊙ for non-rotating stars) to remove the entire hydrogen-rich envelope. Our models thus predict SNII below 20 M⊙ for rotating stars (25 M⊙ for non-rotating stars) and SNIb (possibly SNIc) above that. We computed both isochrones and synthetic clusters to compare our supersolar models to the Westerlund 1 (Wd1) massive young cluster. A synthetic cluster combining rotating and non-rotating models with an age spread between log10 (age/yr) = 6.7 and 7.0 is able to reproduce qualitatively the observed populations of WR, RSG, and YSG stars in Wd1, in particular their simultaneous presence at |$\log _{10}(L/\mathit {\mathrm{ L}}_{\odot })$| = 5–5.5. The quantitative agreement is imperfect and we discuss the likely causes: synthetic cluster parameters, binary interactions, mass-loss and their related uncertainties. In particular, mass-loss in the cool part of the HRD plays a key role. [ABSTRACT FROM AUTHOR]- Published
- 2022
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