AGN and star formation across cosmic time
M. Symeonidis, M. J. Page
TL;DR
This study compares IR galaxy and AGN luminosity functions across cosmic time, revealing that the most luminous IR galaxies are predominantly AGN-powered, influencing star formation limits and dust temperature relations.
Contribution
It provides new insights into the dominance of AGN in luminous IR galaxies and their impact on galaxy properties over cosmic history.
Findings
High-luminosity IR galaxies are AGN-powered at all redshifts.
The IR galaxy LF's high-luminosity slope is flatter due to increasing AGN contribution.
AGN influence the dust temperature and the IR luminosity-temperature relation.
Abstract
We investigate the balance of power between stars and AGN across cosmic history, based on the comparison between the infrared (IR) galaxy luminosity function (LF) and the IR AGN LF. The former corresponds to emission from dust heated by stars and AGN, whereas the latter includes emission from AGN-heated dust only. We find that at all redshifts (at least up to z~2.5), the high luminosity tails of the two LFs converge, indicating that the most infrared-luminous galaxies are AGN-powered. Our results shed light to the decades-old conundrum regarding the flatter high-luminosity slope seen in the IR galaxy LF compared to that in the UV and optical. We attribute this difference to the increasing fraction of AGN-dominated galaxies with increasing total infrared luminosity (L_IR). We partition the L_IR-z parameter space into a star-formation and an AGN-dominated region, finding that the most…
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