Exploring the nature of UV-bright z 10 galaxies detected by JWST: star formation, black hole accretion, or a non-universal IMF?

Abstract

We use the Cosmic Archaeology Tool (CAT) semi-analytical model to explore the contribution of Population (Pop) III/II stars and active galactic nuclei (AGNs) to the galaxy UV luminosity function (LF) evolution at 4 ≤ z ≤ 20. We compare in particular with recent JWST data in order to explore the apparent tension between observations and theoretical models in the number density of bright galaxies at z 10. The model predicts a star formation history dominated by UV faint (M UV > - 18) galaxies, with a Pop III contribution of 10\% ( 0.5\%) at z 20 (z 10). Stars are the primary sources of cosmic reionization, with 5 - 10 \% of ionizing photons escaping into the intergalatic medium at 5 ≤ z ≤ 10, while the contribution of unobscured AGNs becomes dominant only at z 5. The predicted stellar and AGN UV LFs reproduce the observational data at 5 z 9 - 10. At higher redshift, CAT predicts a steeper evolution in the faint-end slope (M UV > - 18), and a number density of bright galaxies (M UV -20) consistent with data at z 10 - 11, but smaller by 0.8 dex at z 12 - 13, and 1.2 dex at z 14 - 16, when compared to the values estimated by recent studies. Including the AGN emission does not affect the above findings, as AGNs contribute at most to 10 \% of the total UV luminosity at M UV < - 19 and z 10. Interestingly, considering a gradual transition in the stellar IMF, modulated by metallicity and redshift as suggested by recent simulations, the model agrees with JWST data at z 12 - 13, and the disagreement at z 14 - 16 is reduced to 0.5 dex.