Co-evolution of baryons and dark matter halos of LYRA dwarf galaxies

Abstract

We use the extremely high-resolution (m bary=4M) LYRA cosmological galaxy formation simulations of six dwarf galaxies with M 200c109M at z=0 to investigate their stellar assembly histories. Based on the age of stars in these galaxies at z=0, 40-100\% of their stellar mass was formed by the time of reionization, when star formation (SF) abruptly shuts down. Depending on their halo mass evolution, some of the dwarfs reignite SF post-reionization (rejuvenators), while others remain quenched for the rest of cosmic time (reionization relics). However, the stellar mass of relics can still grow by more than 50\% through mergers post-reionisation. We find clear correlations between metallicity distributions of the galaxies and the fraction of stars formed post-reionization (f post-reio) such that relics have lower median [Fe/H] with a more prominent low metallicity tail. Moreover, the shape of the galaxies at z=0 correlates with their f post-reio, with rejuvenators showing more spherical stellar distribution than relics. This difference arises only post-reionization when rejuvenators become rounder with more SF activity. Similarly, the shape of dark matter (DM) halos in the inner regions display more spherical distributions in rejuvenators than in relics. The shape evolution shows that DM haloes in all galaxy formation simulations become rounder in comparison to their collision-less, DM-only counterparts. However, DM haloes of rejuvenators evolve more significantly. We do not find any correlation between SF activity and formation of shallow DM density cores in these galaxies. These predictions can be tested using upcoming observational data. In particular, our results indicate that the scatter in the mass-metallicity relation in the low mass regime is correlated with SF histories and the shape of galaxies.

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