The Pristine survey - X. A large population of low-metallicity stars permeates the Galactic disc

Sestito, Federico; Martin, Nicolas F.; Starkenburg, Else; Arentsen, Anke; Ibata, Rodrigo A.; Longeard, Nicolas; Kielty, Collin; Youakim, Kristopher; Venn, Kim A.; Aguado, David S.; Carlberg, Raymond G.; González Hernández, Jonay I.; Hill, Vanessa; Jablonka, Pascale; Kordopatis, Georges; Malhan, Khyati; Navarro, Julio F.; Sánchez-Janssen, Rubén; Thomas, Guillame; Tolstoy, Eline; Wilson, Thomas G.; Palicio, Pedro A.; Bialek, Spencer; Garcia-Dias, Rafael; Lucchesi, Romain; North, Pierre; Osorio, Yeisson; Patrick, Lee R.; Peralta de Arriba, Luis
Referencia bibliográfica

Monthly Notices of the Royal Astronomical Society

Fecha de publicación:
2
2020
Número de autores
29
Número de autores del IAC
5
Número de citas
56
Número de citas referidas
46
Descripción
The orbits of the least chemically enriched stars open a window on the formation of our Galaxy when it was still in its infancy. The common picture is that these low-metallicity stars are distributed as an isotropic, pressure-supported component since these stars were either accreted from the early building blocks of the assembling Milky Way (MW), or were later brought by the accretion of faint dwarf galaxies. Combining the metallicities and radial velocities from the Pristine and LAMOST surveys and Gaia DR2 parallaxes and proper motions for an unprecedented large and unbiased sample of 1027 very metal poor stars at [Fe/H] ≤ -2.5 dex, we show that this picture is incomplete. We find that $31{{\ \rm per\ cent}}$ of the stars that currently reside spatially in the disc ( $|Z| \le 3{\rm \, kpc}$ ) do not venture outside of the disc plane throughout their orbit. Moreover, this sample shows strong statistical evidence (at the 5.0σ level) of asymmetry in their kinematics, favouring prograde motion. The discovery of this population implies that a significant fraction of stars with iron abundances [Fe/H] ≤ -2.5 dex merged into, formed within, or formed concurrently with the MW disc and that the history of the disc was quiet enough to allow them to retain their disc-like orbital properties, challenging theoretical and cosmological models.
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