The specific star formation rate function at different mass scales and quenching: A comparison between cosmological models and SDSS

Abstract

We present the eddington bias corrected Specific Star Formation Rate Function (sSFRF) at different stellar mass scales from a sub-sample of the Sloan Digital Sky Survey Data Release DR7 (SDSS), which is considered complete both in terms of stellar mass ( M) and star formation rate (SFR). The above enable us to study qualitatively and quantitatively quenching, the distribution of passive/star-forming galaxies and perform comparisons with the predictions from state-of-the-art cosmological models, within the same M and SFR limits. We find that at the low mass end ( M = 109.5 - 1010 \, M) the sSFRF is mostly dominated by star-forming objects. However, moving to the two more massive bins ( M = 1010 - 1010.5 \, M and M = 1010.5 - 1011 \, M) a bi-modality with two peaks emerges. One peak represents the star-forming population, while the other describes a rising passive population. The bi-modal form of the sSFRFs is not reproduced by a range of cosmological simulations (e.g. Illustris, EAGLE, Mufasa, IllustrisTNG) which instead generate mostly the star-forming population, while a bi-modality emerges in others (e.g. L-Galaxies, Shark, Simba). Our findings reflect the need for the employed quenching schemes in state-of-the-art models to be reconsidered, involving prescriptions that allow "quenched galaxies" to retain a small level of SF activity (sSFR = 10-11 yr-1- 10-12 yr-1) and generate an adequate passive population/bi-modality even at intermediate masses ( M = 1010 - 1010.5 \, M).