Probing the Star Formation Main Sequence down to 108 M at 1.0<z<3.0

Abstract

We investigate the star formation main sequence (MS) (SFR-M) down to 108-9M using a sample of 34,061 newly-discovered ultra-faint (27 i 30 mag) galaxies at 1<z<3 detected in the GOODS-N field. Virtually these galaxies are not contained in previous public catalogs, effectively doubling the number of known sources in the field. The sample was constructed by stacking the optical broad-band observations taken by the HST/GOODS-CANDELS surveys as well as the 25 ultra-deep medium-band images gathered by the GTC/SHARDS project. Our sources are faint (average observed magnitudes <i>28.2 mag, <H>27.9 mag), blue (UV-slope <β>-1.9), star-forming (rest-frame colors <U-V>0.10 mag, <V-J>0.17 mag) galaxies. These observational characteristics are identified with young (mass-weighted age <tM-w>0.014 Gyr) stellar populations subject to low attenuations (<A(V)>0.30 mag). Our sample allows us to probe the MS down to 108.0\,M at z=1 and 108.5\,M at z=3, around 0.6 dex deeper than previous analysis. In the low-mass galaxy regime, we find an average value for the slope of 0.97 at 1<z<2 and 1.12 at 2<z<3. Nearly 60% of our sample presents stellar masses in the range 106-8 M between 1<z<3. If the slope of the MS remained constant in this regime, the sources populating the low-mass tail of our sample would qualify as starburst galaxies.