The circumgalactic medium in Lyman-alpha: a new constraint on galactic outflow models

Abstract

Galactic outflows are critical to our understanding of galaxy formation and evolution. However the details of the underlying feedback process remain unclear. We compare Lyα observations of the circumgalactic medium (CGM) of Lyman Break Galaxies (LBGs) with mock observations of their simulated CGM. We use cosmological hydrodynamical `zoom-in' simulations of an LBG which contains strong, momentum-driven galactic outflows. Simulation snapshots at z=2.2 and z=2.65 are used, corresponding to the available observational data. The simulation is post-processed with the radiative transfer code crash to account for the impact of ionising photons on hydrogen gas surrounding the simulated LBG. We generate mock absorption line maps for comparison with data derived from observed close galaxy-galaxy pairs. We perform calculations of Lyα photons scattering through the CGM with our newly developed Monte-Carlo code slaf, and compare to observations of diffuse Lyα halos around LBGs. Our fiducial galactic outflow model comes closer to reproducing currently observed characteristics of the CGM in Lyα than a reference inefficient feedback model used for comparison. Nevertheless, our fiducial model still struggles to reproduce the observed data of the inner CGM (at impact parameter b<30kpc). Our results suggest that galactic outflows affect Lyα absorption and emission around galaxies mostly at impact parameters b<50 kpc, while cold accretion flows dominate at larger distances. We discuss the implications of this result, and underline the potential constraining power of CGM observations - in emission and absorption - on galactic outflow models.