A 20 kiloparsec bipolar Lyman α outflow from a radio galaxy at z=2.95
Abstract
The study of ionized gas kinematics in high-z active galaxies plays a key part in our understanding of galactic evolution, in an age where nuclear activity was widespread and star formation close to its peak. We present a study of TXS 0952-217, a radio galaxy at z=2.95, using VLT/MUSE integral field optical spectroscopy as part of a project aimed studying of the properties of ionized gas in high redshift radio galaxies (HzRGs). The Lyman α line profile of this object presents various emission and absorption components. By utilizing Voronoi binning, we obtained a comprehensive map of the kinematic properties of these components. These observations revealed the presence of a redshifted, high velocity (v 500 km s-1) bipolar structure of Lyman α emission, most likely corresponding to an outflow of ionized gas. The outflow extends beyond the compact radio source on both sides, with a total size of 21 kpc. Its kinetic power (1042.1 erg s-1) is about five orders of magnitude smaller than its radio power. Additional ionized lines, including HeIIλ1640, CIVλ1550 and CIII]λ1908 were detected and their line flux ratios determined. The presence of HeII allowed for a precise redshift measurement (z=2.9450.002). Along with the recent discovery of a similar structure in TN J1049-1258, another HzRG, it displays the feasibility of using Lyman α as a tracer of outflowing gas in high redshift sources, and particularly so when supported by non-resonant ionized lines such as HeII, which allow for accurate redshift and velocity measurements.
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