A wide-field view on multiple stellar populations in 28 Milky Way globular clusters

A wide-field view on multiple stellar populations in 28 Milky Way globular clusters

ABSTRACT The majority of Galactic globular clusters (GCs) contain multiple stellar populations displaying specific chemical abundance variations. In particular, GCs generally contain a ‘primordial’ population with abundances similar to field stars, along with an ‘enriched’ population exhibiting ligh...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society Vol. 520; no. 1; pp. 1456 - 1480
Main Authors: Leitinger, E, Baumgardt, H, Cabrera-Ziri, I, Hilker, M, Pancino, E
Format: Journal Article
Language:English
Published: Oxford University Press 28-01-2023
Subjects:
Galaxy: evolution
stars: kinematics and dynamics
globular clusters: general
stars: abundances
Hertzsprung–Russell and colour–magnitude diagrams
Online Access:Get full text
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Summary:ABSTRACT The majority of Galactic globular clusters (GCs) contain multiple stellar populations displaying specific chemical abundance variations. In particular, GCs generally contain a ‘primordial’ population with abundances similar to field stars, along with an ‘enriched’ population exhibiting light element anomalies. In this paper, we present a homogeneous and wide-view analysis of multiple stellar populations in 28 Galactic GCs. By using a combination of HST photometry together with wide-field, ground-based photometry we are able to analyse between 84 per cent and 99 per cent of all stars in each cluster. For each GC, we classify stars into separate sub-populations using the well-established CUBI colour index, and investigate the spatial distributions of these populations. Our results show that dynamically young GCs can contain either centrally concentrated enriched or primordial populations, or no centrally concentrated population. Dynamically old GCs show fully mixed populations as expected. The existence of clusters born with centrally concentrated primordial (and homogeneously mixed) populations exacerbates the mass-budget problem facing many cluster formation scenarios. The diversity in these results also highlights the need for additional theories that can account for the wide variety of initial conditions that we find. We finally investigate the enriched star fraction as a function of different global parameters in our GC sample, using also data for young and low-mass clusters from the Small- and Large Magellanic Clouds and confirm earlier results that the enriched star fraction strongly correlates with the initial mass of a cluster.
ISSN:0035-8711
1365-2966
DOI:10.1093/mnras/stad093