4.7 Article

Inferring the helium abundance of extragalactic globular clusters using integrated spectra

Journal

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 512, Issue 1, Pages 548-562

Publisher

OXFORD UNIV PRESS
DOI: 10.1093/mnras/stac582

Keywords

blue stragglers; globular clusters: general; galaxies: individual: M31

Funding

  1. ERASMUS + programme
  2. Swiss National Science Foundation (SNSF)
  3. Spanish Ministry of Science, Innovation and Universities (MCIU) [PID2019-107427GB-C32]
  4. Severo Ochoa Excellence scheme [SEV-2015-0548]

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This study investigates the determination of stellar population parameters of extragalactic Globular Clusters through their integrated spectroscopy. Previous observations suggested a splitting phenomenon in the H beta(o) line-strength index of Galactic globular clusters, which was thought to be caused by the presence of Blue straggler stars. However, new findings reveal that this splitting only occurs at intermediate to high metallicities and is due to an increased helium abundance, rather than an increased fraction of Blue straggler stars.
The leading method for the determination of relevant stellar population parameters of unresolved extragalactic Globular Clusters is through the study of their integrated spectroscopy, where Balmer line-strength indices are considered to be age sensitive. Previously, a splitting in the highly optimized spectral line-strength index H beta(o) was observed in a sample of Galactic globular clusters at all metallicities resulting in an apparent 'upper branch' and 'lower branch' of globular clusters in the H beta(o)-[MgFe] diagram. This was suggested to be caused by the presence of hot Blue straggler stars (BSSs), resulting in an underestimation of 'spectroscopic' ages in the upper branch. Over a decade on, we look to re-evaluate these findings. We make use of new, large Galactic Globular Cluster integrated spectroscopy data sets. To produce a large, homogeneously combined sample we have considered a number of factors including the radial dependence of Balmer and metal lines. Using this new sample, in disagreement with previous work, we find the splitting in H beta(o) only occurs at intermediate to high metallicities ([M/H] > -1), and is not the result of an increased fraction of BSSs, but rather is due to an increased helium abundance. We explore the possible impact of varying helium on simple stellar population models to provide a theoretical basis for our hypothesis and then use the relationship between upper branch candidacy and enhanced helium to predict the helium content of three M31 clusters. We discuss what this can tell us about their mass and fraction of first generation stars.

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