The Bursty Star Formation Histories of Low-mass Galaxies at 0.4<z<1 Revealed by Star Formation Rates Measured from Hβ and FUV

Abstract

We investigate the burstiness of star formation histories (SFHs) of galaxies at 0.4<z<1 by using the ratio of star formation rates (SFRs) measured from Hβ and FUV (1500 ) (Hβ--to--FUV ratio). Our sample contains 164 galaxies down to stellar mass (M*) of 108.5 M in the CANDELS GOODS-N region, where Team Keck Redshift Survey DEIMOS spectroscopy and HST/WFC3 F275W images from CANDELS and Hubble Deep UV Legacy Survey are available. When the ratio of Hβ- and FUV-derived SFRs is measured, dust extinction correction is negligible (except for very dusty galaxies) with the Calzetti attenuation curve. The Hβ--to--FUV ratio of our sample increases with M* and SFR. The median ratio is 0.7 at M*108.5 M (or SFR 0.5 M/yr) and increases to 1 at M*1010 M (or SFR 10 M/yr). At M*<109.5 M, our median Hβ--to--FUV ratio is lower than that of local galaxies at the same M*, implying a redshift evolution. Bursty SFH on a timescale of a few tens of megayears on galactic scales provides a plausible explanation of our results, and the importance of the burstiness increases as M* decreases. Due to sample selection effects, our Hβ--to--FUV ratio may be an upper limit of the true value of a complete sample, which strengthens our conclusions. Other models, e.g., non-universal initial mass function or stochastic star formation on star cluster scales, are unable to plausibly explain our results.