Abstract
Context.The search for stars born in the very early stages of the Milky Way star formation history is of paramount importance in the study of the early Universe since their chemistry carries irreplaceable information on the conditions in which early star formation and galaxy buildup took place. The search for these objects has generally taken the form of expensive surveys for faint extremely metal-poor stars, the most obvious but not the only candidates to a very early formation.Aims.Thanks toGaiaDR2 radial velocities and proper motions, we identified 72 bright cool stars displaying heliocentric transverse velocities in excess of 500 km s−1. These objects are most likely members of extreme outer-halo populations, either formed in the early Milky Way build-up or accreted from since-destroyed self-gravitating stellar systems.Methods.We analysed low-resolution FORS spectra of the 72 stars in the sample and derived the abundances of a few elements. Despite the large uncertainties on the radial velocity determination, we derived reliable orbital parameters for these objects.Results.The stars analysed are mainly slightly metal poor, with a few very metal-poor stars. Their chemical composition is much more homogeneous than expected. All the stars have very eccentric halo orbits, some extending well beyond the expected dimension of the Milky Way.Conclusions.These stars can be the result of a disrupted small galaxy or they could have been globular cluster members. Age estimates suggest that some of them are evolved blue stragglers, now on the subgiant or asymptotic giant branches.
Highlights
The results of the Gaia satellite (Gaia Collaboration 2016) and especially those of its second data release (DR2; Gaia Collaboration 2018; Arenou et al 2018) have revolutionised our understanding of the build-up of the Galaxy
The stars on disc orbits may be prograde or retrograde, and their excursion about the Galactic plane may be as Chemical and kinematic data are only available at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via http://cdsarc.u-strasbg.fr/viz-bin/cat/J/A+A/638/A122
Due to the extreme kinematics requested in the selection, the stars presented here almost surely belong to the halo, or are unbound stars passing through the Galaxy
Summary
The results of the Gaia satellite (Gaia Collaboration 2016) and especially those of its second data release (DR2; Gaia Collaboration 2018; Arenou et al 2018) have revolutionised our understanding of the build-up of the Galaxy. In particular it appears that the halo stars in the Gaia catalogue are dominated by stars on disc orbits and stars with low rotational angular momentum that are interpreted as the result of a major merger with a massive satellite (Belokurov et al 2018; Haywood et al 2018; Helmi et al 2018; Di Matteo et al 2019). The number of significant fusions experienced by the Milky Way in the few Gyr of its existence is still debated (Myeong et al 2019; Kruijssen et al 2019; Reina-Campos et al 2020)
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