2020
DOI: 10.1093/mnras/staa2057
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The dual origin of the Galactic thick disc and halo from the gas-rich Gaia–Enceladus Sausage merger

Abstract: We analyse a set of cosmological magneto-hydrodynamic simulations of the formation of Milky Way-mass galaxies identified to have a prominent radially anisotropic stellar halo component similar to the so-called “Gaia Sausage” found in the Gaia data. We examine the effects of the progenitor of the Sausage (the Gaia-Enceladus-Sausage, GES) on the formation of major galactic components analogous to the Galactic thick disc and inner stellar halo. We find that the GES merger is likely to have been gas-rich and contr… Show more

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Cited by 116 publications
(135 citation statements)
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“…These stars, if proven to really exist, could have been formed from local gas at the moment of the accretion with the Gaia-Enceladus-Sausage progenitor (see Maiolino et al 2017;Gallagher et al 2019, for star formation activity within galactic outflows). This population would therefore offer us an undeniable sample of locally born retrograde stars in order to precisely date and weigh this merger (see, Grand et al 2020). The Gaia data release 3, which will become public at the end of 2020, will first confirm whether these peculiar stars are indeed counter-rotating.…”
Section: Discussionmentioning
confidence: 99%
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“…These stars, if proven to really exist, could have been formed from local gas at the moment of the accretion with the Gaia-Enceladus-Sausage progenitor (see Maiolino et al 2017;Gallagher et al 2019, for star formation activity within galactic outflows). This population would therefore offer us an undeniable sample of locally born retrograde stars in order to precisely date and weigh this merger (see, Grand et al 2020). The Gaia data release 3, which will become public at the end of 2020, will first confirm whether these peculiar stars are indeed counter-rotating.…”
Section: Discussionmentioning
confidence: 99%
“…Recently, Fragkoudi et al (2020), Belokurov et al (2020) and Grand et al (2020) revived the idea that the thick disc may have formed after a violent gas-rich merger (e.g. Brook et al 2004).…”
Section: Retrograde Starsmentioning
confidence: 99%
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“…High-resolution numerical simulations also suggested several thick and thin disc formation scenarios, including violent gas-rich mergers at high-redshift (e.g., Brook et al 2004;Grand et al 2018Grand et al , 2020, accretion of high-[ /Fe] stars (Abadi et al 2003;Kobayashi & Nakasato 2011;Tissera et al 2012), vertical heating from satellite merging events (e.g., Quinn et al 1993;Villalobos & Helmi 2008) and turbulence in clumpy high-redshift gas-rich disc (Noguchi 1998;Bournaud et al 2009; Beraldo e Silva et al 2020). The recent popular view is that the thick disc formation precedes the thin disc formation and the earlier disc was smaller and thicker, i.e.…”
Section: Introductionmentioning
confidence: 98%
“…Our understanding of the formation and dynamical evolution of dense stellar systems, such as globular clusters (hereafter GCs) and nuclear star clusters (hereafter NSCs), has a crucial impact on galactic archaeology (see e.g. Belokurov et al 2018;Myeong et al 2018Myeong et al , 2019Massari et al 2019;Ibata et al 2019;Di Matteo et al 2019;Chung et al 2019;Grand et al 2020), multi-messenger astronomy (where it allows us to better constrain compact object mergers; see e.g. Belczynski et al 2002;Banerjee et al 2010;Bae et al 2014;Ziosi et al 2014;Breivik et al 2016;Rodriguez et al 2016;Hurley et al 2016;Askar et al 2017;Chatterjee et al 2017;Arca Sedda et al 2018;Kremer et al 2018;Di Carlo et al 2019;Bouffanais et al 2019;Rastello et al 2019;Antonini & Gieles 2020), cosmology and supermassive black hole science (with star clusters acting both as nurseries of intermediate-mass black hole seeds and a delivery mechanism to the galactic centres; see e.g.…”
Section: Introductionmentioning
confidence: 99%