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The prevalence of pseudo-bulges in the Auriga simulations.

Authors :
Gargiulo, Ignacio D
Monachesi, Antonela
Gómez, Facundo A
Grand, Robert J J
Marinacci, Federico
Pakmor, Rüdiger
White, Simon D M
Bell, Eric F
Fragkoudi, Francesca
Tissera, Patricia
Source :
Monthly Notices of the Royal Astronomical Society; Nov2019, Vol. 489 Issue 4, p5742-5763, 22p
Publication Year :
2019

Abstract

We study the galactic bulges in the Auriga simulations, a suite of 30 cosmological magneto-hydrodynamical zoom-in simulations of late-type galaxies in Milky Way sized dark matter haloes performed with the moving-mesh code arepo. We aim to characterize bulge formation mechanisms in this large suite of galaxies simulated at high resolution in a fully cosmological context. The bulges of the Auriga galaxies show a large variety in their shapes, sizes, and formation histories. According to observational classification criteria, such as Sérsic index and degree of ordered rotation, the majority of the Auriga bulges can be classified as pseudo-bulges, while some of them can be seen as composite bulges with a classical component; however, none can be classified as a classical bulge. Auriga bulges show mostly an in situ origin, |$21{{\ \rm per\ cent}}$| of them with a negligible accreted fraction (f <subscript>acc</subscript> < 0.01). In general, their in situ component was centrally formed, with |${\sim}75{{\ \rm per\ cent}}$| of the bulges forming most of their stars inside the bulge region at z  = 0. Part of their in situ mass growth is rapid and is associated with the effects of mergers, while another part is more secular in origin. In |$90{{\ \rm per\ cent}}$| of the Auriga bulges, the accreted bulge component originates from less than four satellites. We investigate the relation between the accreted stellar haloes and the bulges of the Auriga simulations. The total bulge mass shows no correlation with the accreted stellar halo mass, as in observations. However, the accreted mass of bulges tends to correlate with their respective accreted stellar halo mass. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00358711
Volume :
489
Issue :
4
Database :
Complementary Index
Journal :
Monthly Notices of the Royal Astronomical Society
Publication Type :
Academic Journal
Accession number :
139113604
Full Text :
https://doi.org/10.1093/mnras/stz2536