Multiple Populations in Star Clusters

TL;DR

This review discusses the evidence, formation scenarios, and properties of multiple stellar populations in globular clusters, highlighting their diversity, origins, and implications for stellar astrophysics.

Contribution

It provides a comprehensive overview of the current understanding of multiple populations in globular clusters, including their formation, properties, and relation to cluster and galaxy parameters.

Findings

Multiple populations exhibit variations in elemental abundances and photometric sequences.

The origin of multiple populations remains an open and complex issue.

MP behavior varies significantly among different clusters.

Abstract

We review the multiple population (MP) phenomenon of globular clusters (GCs): i.e., the evidence that GCs typically host groups of stars with different elemental abundances and/or distinct sequences in photometric diagrams. Most Galactic and extragalactic clusters exhibit internal variations of He, C, N, O, Na, and Al. They host two distinct stellar populations: the first population of stars, which resemble field stars with similar metallicities, and one or more second stellar populations that show the signature of high-temperature H-burning. In addition, a sub-sample of clusters hosts stellar populations with different heavy-element abundances. The MP origin remains one of the most puzzling, open issues of stellar astrophysics. We summarize the scenarios for the MP formation and depict the modern picture of GCs and their stellar populations along with the main evolutionary phases. We show that the MP behavior dramatically changes from one cluster to another and investigate their complexity to define common properties. We investigate relations with the host galaxy, the parameters of the host clusters (e.g., GC's mass, age, orbit), and stellar mass. We summarize results on spatial distribution and internal kinematics of MPs. Finally, we review the relation between MPs and the so-called second-parameter problem of the horizontal-branch morphology of GCs and summarize the main findings on the extended main-sequence phenomenon in young clusters.