Cosmic Star-Formation History Measured at 1.4 GHz

Abstract

We matched the 1.4 GHz local luminosity functions of star-forming galaxies (SFGs) and active galactic nuclei to the 1.4 GHz differential source counts from 0.25 \ μJy to 25 Jy using combinations of luminosity and density evolution. We present the most robust and complete local far-infrared (FIR)/radio luminosity correlation to date in a volume-limited sample of ≈ 4.3 × 103 nearby SFGs, finding that it is very tight but distinctly sub-linear: LFIR L1.4\,GHz0.85. If the local FIR/radio correlation does not evolve, the evolving 1.4 GHz luminosity function of SFGs yields the evolving star-formation rate density (SFRD) (M \ year-1 \ Mpc-3) as a function of time since the big bang. The SFRD measured at 1.4 GHz grows rapidly at early times, peaks at "cosmic noon" when t ≈ 3 \ Gyr and z ≈ 2, and subsequently decays with an e-folding time scale τ = 3.2 \ Gyr. This evolution is similar to, but somewhat stronger than, SFRD evolution estimated from UV and FIR data.