The role of mergers and rejuvenation in the buildup of the quiescent population at cosmic noon

Abstract

We investigate the quenching of galaxies using a mock observational lightcone generated from the Semi-Analytic Model (SAM) L-Galaxies, closely matched to observations from the UKIDSS Ultra Deep Survey (UDS). The sample is used to study merging, rejuvenation, and visibility times for star-forming, quiescent, and post-starburst (PSB) galaxies, to assess the impact on the build-up of the passive galaxy mass functions. We find, for example, that a typical PSB (M1010\,M) at z≈1 has a 15 per cent likelihood of merging and around a 25 per cent likelihood of rejuvenating within 1 Gyr of being identified. Applying these rates and timescales to the observational data, we estimate the fraction of quiescent galaxies that passed through a PSB phase. We find that 18 - 28 per cent of the build-up in the massive end (M>1010\,M\,) of the passive mass function at 1<z<2 can be explained by PSBs, with the contribution declining to 5 per cent by z 0.5. Accounting for mergers and rejuvenation reduces the inferred PSB contribution by approximately a factor of two. At lower stellar masses (M < 1010\,M), rapid quenching through a PSB phase explains a significantly larger fraction of the growth in the passive mass function. With a visibility time of 0.75 Gyr, we find that around 60-80 per cent of low-mass passive galaxies underwent a PSB phase. Our findings provide further evidence that low- and high-mass galaxies follow different quenching pathways.

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