FLAMES and XSHOOTER spectroscopy along the two blue straggler star sequences of M30

L. Lovisi, A. Mucciarelli, B. Lanzoni, F. R. Ferraro, E. Dalessandro, L. Monaco

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26 Citations (Scopus)

Abstract

We present spectroscopic observations acquired with FLAMES and XSHOOTER at the Very Large Telescope for a sample of 15 blue straggler stars (BSSs) in the globular cluster (GC) M30. The targets have been selected to sample the two BSS sequences discovered, with seven BSSs along the blue sequence and eight along the red one. No difference in the kinematical properties of the two groups of BSSs has been found. In particular, almost all the observed BSSs have projected rotational velocities lower than ∼30 km s-1, with only one (blue) fast rotating BSS (>90 km s-1), identified as a W UMa binary. This rotational velocity distribution is similar to those obtained in 47 Tucanae and NGC 6397, while M4 remains the only GC studied so far that harbors a large fraction of fast rotating BSSs. All stars hotter than ∼7800 K (regardless of the parent BSS sequence) show iron abundances larger than those measured from normal cluster stars, with a clear-cut trend with the effective temperature. This behavior suggests that particle transport mechanisms driven by radiative levitation occur in the photosphere of these stars, as already observed for the BSSs in NGC 6397. Finally, four BSSs belonging to the red sequence (not affected by radiative levitation) show a strong depletion of [O/Fe], with respect to the abundance measured in red giant branch and horizontal branch stars. This O-depletion is compatible with the chemical signature expected in BSSs formed by mass-transfer processes in binary systems, in agreement with the mechanism proposed for the formation of BSSs in the red sequence.

Original languageEnglish
Article number148
JournalAstrophysical Journal
Volume772
Issue number2
DOIs
Publication statusPublished - 1 Aug 2013

Keywords

  • blue stragglers
  • globular clusters: individual (M30)
  • stars: abundances
  • stars: evolution
  • techniques: spectroscopic

ASJC Scopus subject areas

  • Astronomy and Astrophysics
  • Space and Planetary Science

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