Evidence for a chemical enrichment coupling of globular clusters and field stars in the Fornax dSph

Hendricks, Benjamin and Boeche, Corrado and Johnson, Christian I. and Frank, Matthias J. and Koch, Andreas and Mateo, Mario and Bailey III, John I. (2016) Evidence for a chemical enrichment coupling of globular clusters and field stars in the Fornax dSph. Astronomy and Astrophysics, 585. ISSN 1432-0746

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The globular cluster H4, located in the center of the Fornax dwarf spheroidal galaxy, is crucial for understanding the formation and chemical evolution of star clusters in low-mass galactic environments. H4 is peculiar because the cluster is significantly more metal-rich than the galaxy’s other clusters, is located near the galaxy center, and may also be the youngest cluster in the galaxy. In this study, we present detailed chemical abundances derived from high-resolution (R ~ 28 000) spectroscopy of an isolated H4 member star for comparison with a sample of 22 nearby Fornax field stars. We find the H4 member to be depleted in the alpha-elements Si, Ca, and Ti with [Si/Fe] = −0.35 ± 0.34, [Ca/Fe] = + 0.05 ± 0.08, and [Ti/Fe] = −0.27 ± 0.23, resulting in an average [α/Fe] = −0.19 ± 0.14. If this result is representative of the average cluster properties, H4 is the only known system with a low [α/Fe] ratio and a moderately low metallicity embedded in an intact birth environment. For the field stars we find a clear sequence, seen as an early depletion in [α/Fe] at low metallicities, in good agreement with previous measurements. H4 falls on top of the observed field star [α/Fe] sequence and clearly disagrees with the properties of Milky Way halo stars. We therefore conclude that within a galaxy, the chemical enrichment of globular clusters may be closely linked to the enrichment pattern of the field star population. The low [α/Fe] ratios of H4 and similar metallicity field stars in Fornax give evidence that slow chemical enrichment environments, such as dwarf galaxies, may be the original hosts of alpha-depleted clusters in the halos of the Milky Way and M31.

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Journal Article
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Astronomy and Astrophysics
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Reproduced with permission from Astronomy & Astrophysics, © ESO
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30 Nov 2016 12:12
Last Modified:
20 Sep 2023 00:58