Marcolini, A., Gibson, B. K., Karakas, A. I. and Sanchez-blazquez, P. (2009) The chemical evolution of globular clusters - I. Reactive elements and non-metals. Monthly Notices of the Royal Astronomical Society, 395 (2). pp. 719-735. ISSN 00358711
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Official URL: http://dx.doi.org/10.1111/j.1365-2966.2009.14591.x
We propose a new chemical evolution model aimed at explaining the chemical properties of globular clusters (GCs) stars. Our model depends upon the existence of (i) a peculiar pre-enrichment phase in the GC's parent galaxy associated with very low-metallicity Type II supernovae (SNe II) and (ii) localized inhomogeneous enrichment from a single Type Ia supernova (SN Ia) and intermediate-mass (4–7 M⊙) asymptotic giant branch field stars. GC formation is then assumed to take place within this chemically peculiar region. Thus, in our model the first low-mass GC stars to form are those with peculiar abundances (i.e. O-depleted and Na-enhanced), while ‘normal’ stars (i.e. O-rich and Na-depleted) are formed in a second stage when self-pollution from SNe II occurs and the peculiar pollution from the previous phase is dispersed. In this study, we focus on three different GCs: NGC 6752, 6205 (M 13) and 2808. We demonstrate that, within this framework, a model can be constructed which is consistent with (i) the elemental abundance anticorrelations, (ii) isotopic abundance patterns and (iii) the extreme [O/Fe] values observed in NGC 2808 and M 13, without violating the global constraints of approximately unimodal [Fe/H] and C+N+O.
|Uncontrolled Keywords (separate with ;):||nuclear reactions, nucleosynthesis, abundances; stars: abundances; stars: AGB and post-AGB; stars: chemically peculiar; globular clusters: individual: NGC 6752, NGC 6205, NGC 2808|
|Subjects:||Physical sciences > Physics|
|Schools:||Faculty of Science and Technology > School of Physical Sciences and Computing > Jeremiah Horrocks Institute|
|Deposited By:||Helen Cooper|
|Deposited On:||21 Mar 2012 18:02|
|Last Modified:||15 Mar 2017 10:41|
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