VINTERGATAN III: how to reset the metallicity of the Milky Way

Florent Renaud, Oscar Agertz, Eric P. Andersson, Justin I. Read, Nils Ryde, Thomas Bensby, Martin P. Rey, Diane K. Feuillet

Research output: Contribution to journalArticlepeer-review

34 Citations (SciVal)

Abstract

Using the cosmological zoom simulation VINTERGATAN, we present a new scenario for the onset of star formation at the metal-poor end of the low-[α/Fe] sequence in a Milky Way-like galaxy. In this scenario, the galaxy is fuelled by two distinct gas flows. One is enriched by outflows from massive galaxies, but not the other. While the former feeds the inner galactic region, the latter fuels an outer gas disc, inclined with respect to the main galactic plane, and with a significantly poorer chemical content. The first passage of the last major merger galaxy triggers tidal compression in the outer disc, which increases the gas density and eventually leads to star formation, at a metallicity 0.75 dex lower than the inner galaxy. This forms the first stars of the low-[α/Fe] sequence. These in situ stars have halo-like kinematics, similar to what is observed in the Milky Way, due to the inclination of the outer disc that eventually aligns with the inner one via gravitational torques. We show that this tilting disc scenario is likely to be common in Milky Way-like galaxies. This process implies that the low-[α/Fe] sequence is populated in situ, simultaneously from two formation channels, in the inner and the outer galaxy, with distinct metallicities. This contrasts with purely sequential scenarios for the assembly of the Milky Way disc and could be tested observationally....
Original languageEnglish
Pages (from-to)5868–5876
JournalMonthly Notices of the Royal Astronomical Society
Volume503
Issue number4
Early online date14 Apr 2021
DOIs
Publication statusPublished - 30 Jun 2021

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