DUVET: sub-kiloparsec resolved star formation driven outflows in a sample of local starbursting disk galaxies

Abstract

We measure resolved (kiloparsec-scale) outflow properties in a sample of 10 starburst galaxies from the DUVET (Deep near-UV observations of Entrained gas in Turbulent galaxies) sample, using Keck/KCWI observations of Hβ and [OIII]~λ5007. We measure 460 lines-of-sight that contain outflows, and use these to study scaling relationships of outflow velocity (v out), mass-loading factor (η; mass outflow rate per SFR) and mass flux ( out; mass outflow rate per area) with co-located SFR surface density ( SFR) and stellar mass surface density (). We find strong, positive correlations of out SFR1.2 and out 1.5. We also find shallow correlations between v out and both SFR and . Our resolved observations do not suggest a threshold in outflows with SFR, but rather we find that the local specific SFR ( SFR/) is a better predictor of where outflows are detected. We find that outflows are very common above SFR/ 0.1~Gyr-1 and rare below this value. We argue that our results are consistent with a picture in which outflows are driven by supernovae, and require more significant injected energy in higher mass surface density environments to overcome local gravity. The correlations we present here provide a statistically robust, direct comparison for simulations and higher redshift results from JWST.