English

Self-enrichment in Omega Centauri

Astrophysics 2007-05-23 v1

Abstract

The origin of abundance spreads observed in omega Centauri is studied in the context of the self-enrichment scenario. Five chemical evolution models are constructed and are compared with empirical metallicity distribution of ω\omega Cen. After a series of simulations, it is found that neither of closed-box, outflow, nor infall models can reproduce the empirical metallicity distribution of omega Cen, while a modified outflow model with a bimodal initial mass function (IMF) gives a metallicity distribution that fits closely to the empirical ones. In the modified outflow model, long-lived stars are assumed to form after the first explosion of type II supernovae (SNII) in a proto-cloud. The modified outflow model involves gas infall at the very first chemical evolution. Thus we conclude that self-enrichment causes the abundance dispersion in omega Cen. A success of the outflow model with the bimodal IMF implies that low mass stars in a globular cluster (GC) should have formed in the gas already enriched by the first generation of SNII. This scenario, originally proposed by Cayrel (1986), can explain a lack of globular clusters with [Fe/H] > -2.2 in the Milky Way Galaxy.

Keywords

Cite

@article{arxiv.astro-ph/9912526,
  title  = {Self-enrichment in Omega Centauri},
  author = {C. Ikuta and N. Arimoto},
  journal= {arXiv preprint arXiv:astro-ph/9912526},
  year   = {2007}
}

Comments

35 pages, 9 figures. Accepted for publication in A&A, Main Journal