DOI:
10.1051/0004-6361/202348231
IAA authors:
Vilchez, J. M.;Pérez-Díaz, B.;Pérez-Montero, E.
Authors:
Goswami, S.;Vilchez, J. M.;Pérez-Díaz, B.;Silva, L.;Bressan, A.;Pérez-Montero, E.
Journal:
Astronomy and Astrophysics
Abstract:
Context. Recent work presented increasing evidence of high non-constant S/O abundance ratios observed in star-forming metal-poor galaxies that deviated from the constant canonical S/O across a wide range of O/H abundances. Similar peculiarly high Fe/O ratios have also recently been detected. <BR /> Aims: We investigate whether these high S/O ratios at low metallicities could be explained when the process of pair-instability supernovae (PISN) in chemical modelling is included, through which a similar behaviour of the Fe/O ratios was reproduced successfully. <BR /> Methods: We used chemical evolution models that considered the stages of PISN in the previously published yields and adopted a suitable initial mass function (IMF) to characterize this evolutionary stage appropriately. <BR /> Results: The peculiarly high values and the behaviour of the observed S/O versus O/H relation can be reproduced when the ejecta of very massive stars that go through the process of PISN are taken into account. Additionally, a bimodal top-heavy IMF and an initial strong burst of star formation are required to reach the reported high S/O values. <BR /> Conclusions: We show that the role of very massive stars going through the process of PISN should be taken into account to explain the chemical enrichment of sulphur and oxygen in metal-poor star-forming regions.
URL:
https://ui.adsabs.harvard.edu/#abs/2024A&A...685A..81G/abstract
Keywords:
stars: massive;stars: Population II;stars: Population III;Galaxy: abundances;galaxies: starburst;galaxies: luminosity function;mass function;Astrophysics - Astrophysics of Galaxies