Abstract

ABSTRACT We employ the Delphi semi-analytical model to study the impact of black hole growth on high-redshift galaxies, both in terms of the observed ultraviolet (UV) luminosity and of the star formation rate. To do this, first, we assess the contribution of active galactic nuclei (AGN) to the total galaxy UV luminosity as a function of stellar mass and redshift. We find that for MUV ≲ −24 mag and z ≈ 5−6, the galaxies for which the black hole UV luminosity outshines the stellar UV emission become the majority, and we estimate their duty cycle. Secondly, we study the evolution of the AGN and stellar luminosity functions (LFs), finding that it is driven both by changes in their characteristic luminosities (i.e. evolution of the intrinsic brightness of galaxies) and in their normalizations (i.e. evolution of the number densities of galaxies), depending on the luminosity range considered. Finally, we follow the mass assembly history for three different halo mass bins, finding that the magnitude of AGN-driven outflows depends on the host halo mass. We show that AGN feedback is most effective when the energy emitted by the accreting black hole is approximately $1{{\ \rm per\ cent}}$ of the halo binding energy, and that this condition is met in galaxies in haloes with $M_\mathrm{h} \sim 10^{11.75} \, {\rm \rm M_\odot }$ at z = 4. In such cases, AGN feedback can drive outflows that are up to 100 times more energetic than supernovae-driven outflows, and the star formation rate is a factor of 3 lower than for galaxies of the same mass without black hole activity.

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