Bibcode
Milone, A. P.; Bedin, L. R.; Piotto, G.; Anderson, J.
Bibliographical reference
Astronomy and Astrophysics, Volume 497, Issue 3, 2009, pp.755-771
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4
2009
Journal
Citations
298
Refereed citations
268
Description
Context: The discovery of multiple main sequences (MS) in the massive
clusters NGC 2808 and Omega Centauri, along with multiple subgiant
branches in NGC 1851 and NGC 6388 has challenged the long-held paradigm
that globular clusters consist of simple stellar populations. This
evolving picture has been further complicated by recent photometric
studies of the Large Magellanic Cloud (LMC) intermediate-age clusters,
where the main sequence turn-off (MSTO) was found to be bimodal (NGC
1806 and NGC 1846) or broadened (NGC 1783 and NGC 2173). Aims: We
undertook a study of archival HST images of Large and Small Magellanic
Cloud clusters with the aim of measuring the frequency of clusters with
evidence of multiple or prolonged star formation events and determining
their main properties. We found useful images for 53 clusters that cover
a wide range of ages. In this paper, we analyse the color-magnitude
diagrams (CMD) of sixteen intermediate-age (~1-3 Gyr) LMC clusters. Methods: The data were reduced and the photometry corrected for
differential reddening (where required). We find that eleven clusters
show an anomalous spread (or split) in colour and magnitude around the
MSTO, even though the other main features of the CMD (MS, red giant
branch, asymptotic giant branch) are narrow and the horizontal branch
(HB) red clump well defined. By using the CMD of the stars in regions
that surround the cluster, we demonstrate that the observed feature is
unequivocally associated to the clusters. We use artificial-star tests
to demonstrate that the spread (or split) is not an artifact due to
photometric errors or binaries. Results: We confirm that two
clusters (NGC 1806 and NGC 1846) clearly exhibit two distinct MSTOs and
observe, for the first time, a double MSTO in NGC 1751. In these three
clusters, the population corresponding to the brighter MSTO includes
more than two-thirds of the cluster stellar population. We confirm the
presence of multiple stellar populations in NGC 1783. Our photometry
strongly suggests that the MSTO of this cluster is formed by two
distinct branches. In seven clusters (ESO057-SC075, HODGE7, NGC 1852,
NGC 1917, NGC 1987, NGC 2108, and NGC 2154), we observed an intrinsic
broadening of the MSTO that may suggest that these clusters have
experienced a prolonged period of star formation that spans a period
between 150 and 250 Myr. The CMDs of IC 2146, NGC 1644, NGC 1652, NGC
1795, and NGC 1978 show no evidence of spread or bimodality within our
photometric precision. In summary, 70 ± 25% of our sample are not
consistent with the simple, single stellar population hypothesis.
Based on observations with the NASA/ESA Hubble Space Telescope, obtained
at the Space Telescope Science Institute, which is operated by AURA,
Inc., under NASA contract NAS 5-26555. Table 1, Figs. 13-23, 32-36, 38,
and 39 are only available in electronic form at http://www.aanda.org