Abstract
AbstractThe origin of the chemical anomalies in star clusters is still an open question, although much effort has been employed both from a theoretical and observational point of view. The exploration of the dependence of such multiple stellar populations based on certain cluster properties (e.g. mass, age, metallicity) has represented a compelling line of investigation so far. Here I report an overview of the results obtained from our latest surveys aimed at characterising the phenomenon of chemical variations in star clusters that are much younger with respect to the ancient globular clusters. The fundamental question we are asking is whether these abundance patterns are only restricted to the old massive clusters; and if not, is there a difference between young and old objects?
Highlights
All old and massive globular clusters (GCs) studied so far display star-to-star chemical anomalies in the form of anticorrelated patterns among certain light elements
Since most of multiple stellar populations (MPs) studies were performed on old clusters (> 10 Gyr), the natural question to ask is: are chemical anomalies only restricted to the ancient GCs?
Our Hubble Space Telescope (HST) photometric survey is composed of 13 star clusters both in the LMC and SMC
Summary
All old and massive globular clusters (GCs) studied so far display star-to-star chemical anomalies in the form of anticorrelated patterns among certain light elements. Since most of MPs studies were performed on old clusters (> 10 Gyr), the natural question to ask is: are chemical anomalies only restricted to the ancient GCs?
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