The CGM at Cosmic Noon with KCWI: Outflows from a Star-forming Galaxy at z=2.071

Abstract

We present the first results from our CGM at Cosmic Noon with KCWI program to study gas flows in the circumgalactic medium (CGM) at z=2-3. Combining the power of a high-resolution VLT/UVES quasar spectrum, an HST/ACS image, and integral field spectroscopy with Keck/KCWI, we detected Lya emission from a 1.7L galaxy at z gal=2.0711 associated with a Lyman limit system with weak MgII (Wr(2796)=0.24 Ang) in quasar field J143040+014939. The galaxy is star-forming ( SFR FUV=37.8 M yr-1) and clumpy: either an edge-on disk (i=85) or, less likely, a major merger. The background quasar probes the galaxy at an impact parameter of D=66 kpc along the projected galaxy minor axis (=89). From photoionization modeling of the absorption system, we infer a total line-of-sight CGM metallicity of [Si/H]=-1.5+0.4-0.3. The absorption system is roughly kinematically symmetric about z gal, with a full MgII velocity spread of 210 km s-1. Given the galaxy-quasar orientation, CGM metallicity, and gas kinematics, we interpret this gas as an outflow that has likely swept-up additional material. By modeling the absorption as a polar outflow cone, we find the gas is decelerating with average radial velocity V out=109-588 km s-1 for half opening angles of θ0=14-75. Assuming a constant V out, it would take on average t out111-597 Myr for the gas to reach 66 kpc. The outflow is energetic, with a mass outflow rate of M out<5237 M yr-1 and mass loading factor of η<1.41.0. We aim to build a sample of 50 MgII absorber--galaxy pairs at this epoch to better understand gas flows when they are most actively building galaxies.