An extended Lyman α outflow from a radio galaxy at z=3.7?

Abstract

Spatially resolved observations of AGN host galaxies undergoing feedback processes are one of the most relevant avenues through which galactic evolution can be studied, given the long lasting effects AGN feedback has on gas reservoirs, star formation, and AGN environments at all scales. Within this context we report results from VLT/MUSE integral field optical spectroscopy of TN J1049-1258, one of the most powerful radio sources known, at a redshift of 3.7. We detected extended ( 18 kpc) Lyman α emission, spatially aligned with the radio axis, redshifted by 2250 60 km s-1 with respect to the host galaxy systemic velocity, and co-spatial with UV continuum emission. This Lyman α emission could arise from a companion galaxy, although there are arguments against this interpretation. Alternatively, it might correspond to an outflow of ionized gas stemming from the radio galaxy. The outflow would be the highest redshift spatially resolved ionized outflow to date. The enormous amount of energy injected, however, appears to be unable to quench the host galaxy's prodigious star formation, occurring at a rate of 4500 M yr-1, estimated using its far infra-red luminosity. Within the field we also found two companion galaxies at projected distances of 25 kpc and 60 kpc from the host, which suggests the host galaxy is harbored within a protocluster.

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