On the relative Contribution of high-redshift Galaxies and Active Galactic Nuclei to Reionization

TL;DR

This paper evaluates the roles of high-redshift galaxies and active galactic nuclei in reionizing the universe, considering luminosity functions, escape fractions, and observational constraints to determine their relative contributions.

Contribution

It provides a combined analysis of AGNs and LBGs contributions to reionization, emphasizing the importance of faint sources and variable escape fractions at high redshifts.

Findings

A steep faint-end AGN luminosity function contributes to reionization.

Escape fraction of ~5% suffices for LBGs up to z~7.

High escape fractions (~70%) are needed for faint galaxies at z>7.

Abstract

In this paper we discuss the contribution of different astrophysical sources to the ionization of neutral hydrogen at different redshifts. We critically revise the arguments in favour/against a substantial contribution of Active Galactic Nuclei (AGNs) and/or Lyman Break Galaxies (LBGs) to the reionization of the Universe at z>5. We consider extrapolations of the high-z QSO and LBG luminosity functions and their redshift evolution as well as indirect constraints on the space density of lower luminosity Active Galactic Nuclei based on the galaxy stellar mass function. Since the hypothesis of a reionization due to LBGs alone requires a significant contribution of faint dwarf galaxies and a LyC photon escape fraction (f_esc) of the order of ~20%, in tension with present observational constraints, we examine under which hypothesis AGNs and LBGs may provide a combined relevant contribution to the reionization. We show that a relatively steep faint-end of the AGN luminosity function, consistent with present constraints, provides a relevant (although sub-dominant) contribution, thus allowing us to recover the required ionizing photon rates with f_esc~5% up to z~7. At higher redshifts, we test the case for a luminosity-dependent f_esc scenario and we conclude that, if the observed LBGs are indeed characterized by very low f_esc, values of the order of f_esc~70% are needed for objects below our detection threshold, for this galaxy population to provide a substantial contribution to reionization. Clearly, the study of the properties of faint sources (both AGNs and LBGs) is crucial.