CANDELS Sheds Light on the Environmental Quenching of Low-mass Galaxies

Abstract

We investigate the environmental quenching of galaxies, especially those with stellar masses (M*)<109.5 M, beyond the local universe. Essentially all local low-mass quenched galaxies (QGs) are believed to live close to massive central galaxies, which is a demonstration of environmental quenching. We use CANDELS data to test whether or not such a dwarf QG--massive central galaxy connection exists beyond the local universe. To this purpose, we only need a statistically representative, rather than a complete, sample of low-mass galaxies, which enables our study to z1.5. For each low-mass galaxy, we measure the projected distance (dproj) to its nearest massive neighbor (M*>1010.5 M) within a redshift range. At a given redshift and M*, the environmental quenching effect is considered to be observed if the dproj distribution of QGs (dprojQ) is significantly skewed toward lower values than that of star-forming galaxies (dprojSF). For galaxies with 108 M < M* < 1010 M, such a difference between dprojQ and dprojSF is detected up to z1. Also, about 10\% of the quenched galaxies in our sample are located between two and four virial radii (RVir) of the massive halos. The median projected distance from low-mass QGs to their massive neighbors, dprojQ / RVir, decreases with satellite M* at M* 109.5 M, but increases with satellite M* at M* 109.5 M. This trend suggests a smooth, if any, transition of the quenching timescale around M* 109.5 M at 0.5<z<1.0.