The MaGICC volume: reproducing statistical properties of high redshift galaxies

Abstract

We present a cosmological hydrodynamical simulation of a representative volume of the Universe, as part of the Making Galaxies in a Cosmological Context (MaGICC) project. MaGICC uses a thermal implementation for supernova and early stellar feedback. This work tests the feedback model at lower resolution across a range of galaxy masses, morphologies and merger histories. The simulated sample compares well with observations of high redshift galaxies (z 2) including the stellar mass - halo mass (M - Mh ) relation, the Galaxy Stellar Mass Function (GSMF) at low masses (M 5 × 1010 M ) and the number density evolution of low mass galaxies. The poor match of M - Mh and the GSMF at high masses (M 5 × 1010 M ) indicates supernova feedback is insufficient to limit star formation in these haloes. At z = 0, our model produces too many stars in massive galaxies and slightly underpredicts the stellar mass around L mass galaxy. Altogether our results suggest that early stellar feedback, in conjunction with supernovae feedback, plays a major role in regulating the properties of low mass galaxies at high redshift.