Publication Date:
2016-05-06
Description:
We present a new zoom-in hydrodynamical simulation, ‘Eris BH ’, which features the same initial conditions, resolution, and sub-grid physics as the close Milky Way-analogue ‘Eris’ (Guedes et al. 2011 ), but it also includes prescriptions for the formation, growth and feedback of supermassive black holes. This enables a detailed study of black hole evolution and the impact of active galactic nuclei (AGN) feedback in a late-type galaxy. At z = 0, the main galaxy of Eris BH hosts a central black hole of 2.6 x 10 6 M , which correlates to the bulge mass and the galaxy's central velocity dispersion similarly to what is observed in the Milky Way and in pseudobulges. During its evolution, the black hole grows mostly through mergers with black holes brought in by accreted satellite galaxies and very little by gas accretion (due to the modest amount of gas that reaches the central regions). AGN feedback is weak and it affects only the central $1\text{--}2 \,\rm {kpc}$ . Yet, it limits the growth of the bulge, which results in a rotation curve that, in the inner ~ 10 kpc, is flatter than that of Eris. We find that Eris BH is more prone to instabilities than Eris, due to its smaller bulge and larger disc. At z ~ 0.3, an initially small bar grows to be of a few disc scalelengths in size. The formation of the bar causes a small burst of star formation in the inner few hundred pc, provides new gas to the central black hole and causes the bulge to have a boxy/peanut morphology by z = 0.
Print ISSN:
0035-8711
Electronic ISSN:
1365-2966
Topics:
Physics
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