Tracing the Quenching Journey across Cosmic Time

TL;DR

This paper introduces an enhanced galaxy formation model that accurately predicts star formation and quenching across cosmic time, incorporating new AGN feedback mechanisms and gas stripping processes, aligning well with observations up to high redshifts.

Contribution

The paper presents a new version of the GAEA model with improved AGN feedback, quasar winds, and gas stripping, achieving better agreement with observed galaxy quenching and star formation data.

Findings

Predicted specific SFR distributions match local Universe observations.

Quenched galaxy fractions agree with data up to z~3-4.

Model predicts high number densities of massive quiescent galaxies at z>3.

Abstract

We present the latest version of the GAEA model of galaxy formation. Our new model combines (i) an updated treatment of AGN feedback including an improved modelling of cold gas accretion on super-massive BHs and an explicit implementation of quasar winds; and (ii) an improved modelling of cold and hot gas stripping from satellite galaxies. We show that our latest model predicts specific SFR distributions that are in remarkable agreement with observational measurements in the local Universe. Our updated model predicts quenched fractions that are in very nice agreement with data up to z~3-4, and a turn-over of the number densities of quenched galaxies at low stellar masses that is in qualitative agreement with current observational estimates. We show that the main reasons for the improved behaviour with respect to previous renditions of our model are the updated treatment for satellites at low galaxy masses (<10^10 Msun) and the inclusion of quasar winds at intermediate to large stellar masses (>10^10 Msun). However, we show that the better treatment of the star formation threshold, due to our explicit partitioning of the cold gas in its atomic and molecular components, also plays an important role in suppressing excessive residual star formation in massive galaxies. While our analysis is based on a selection of quiescent galaxies that takes advantage of the information about their SFR, we demonstrate that the impact of a different (colour-colour) selection is not significant, at least for galaxies above the completeness limits of current surveys. Our new model predicts number densities of massive quiescent galaxies at z>3 that are the largest among recently published models. Yet, our model predictions appear still to be below post-JWST observational measurements. We show that the expected cosmic variance is large, and can easily accommodate some of the most recent measurements.