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Diffuse gas properties and stellar metallicities in cosmological simulations of disc galaxy formation

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arxiv 1403.4934 v2 pith:ODHCNKZF submitted 2014-03-19 astro-ph.GA astro-ph.CO

Diffuse gas properties and stellar metallicities in cosmological simulations of disc galaxy formation

classification astro-ph.GA astro-ph.CO
keywords galaxypropertiescircum-galacticformationstellarcentraldiscelements
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We analyse the properties of the circum-galactic medium and the metal content of the stars comprising the central galaxy in eight hydrodynamical `zoom-in' simulations of disc galaxy formation. We use these properties as a benchmark for our model of galaxy formation physics implemented in the moving-mesh code AREPO, which succeeds in forming quite realistic late-type spirals in the set of `Aquarius' initial conditions of Milky Way-sized haloes. Galactic winds significantly influence the morphology of the circum-galactic medium and induce bipolar features in the distribution of heavy elements. They also affect the thermodynamic properties of the circum-galactic gas by supplying an energy input that sustains its radiative losses. Although a significant fraction of the heavy elements are transferred from the central galaxy to the halo, and even beyond the virial radius, enough metals are retained by stars to yield a peak in their metallicity distributions at about $Z_{\odot}$. All our default runs overestimate the stellar [O/Fe] ratio, an effect that we demonstrate can be rectified by an increase of the adopted SN type Ia rate. Nevertheless, the models have difficulty in producing stellar metallicity gradients of the same strength as observed in the Milky Way.

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