The Pristine survey XXIV: The Galactic underdogs -- Dynamic tales of a Milky Way metal-poor population

Abstract

Through the chemodynamical characterisation of metal-poor stars, one can efficiently probe the early history of the Milky Way. We aim at decontaminating a sample of 3M giant stars with Gaia DR3 XP-based Pristine-Gaia metallicities, to investigate a subset of very metal-poor stars ([Fe/H] < -1.7) with disc-like orbits. We construct a statistically robust sample of 36 000 very metal-poor giants, using APOGEE and LAMOST to estimate and remove contamination from high Vφ stars. We investigate the spatial and kinematic properties of the decontaminated sample, using Vφ and the action space, both powerful to disentangle stellar populations. As in previous works, we find a pronounced asymmetry in Lz and Vφ in favour of prograde stars. This excess is mostly made of prograde-planar stars (10% of the very metal-poor population), and contains stars with Vφ > 180 km s-1 and Zmax < 1.5 kpc, down to [Fe/H] = -2.9 at a 2σ confidence level. While the overall orbital distributions of our sample match that of a halo, the highly prograde and planar subset (2% of the very metal-poor population) also bears characteristics classically associated with a thick disc, i.e., a spatial distribution compatible with a short-scaled thick disc, and a thick disc-like Zmax - Rmax distribution. Additionally, assuming a stationary or prograde halo with Vφ 30-40 km.s-1 is not sufficient to suppress the kinematic signature of the highly prograde and planar subset. These results rule out any link with a thin disc, and instead, support a contribution from a metal-weak thick disc.