Giant Metrewave Radio Telescope detection of associated HI 21cm absorption at z = 1.2230 towards TXS1954+513

Abstract

We have used the 610 MHz receivers of the Giant Metrewave Radio Telescope (GMRT) to detect associated HI 21cm absorption from the z = 1.2230 blazar TXS1954+513. The GMRT HI 21cm absorption is likely to arise against either the milli-arcsecond-scale core or the one-sided milli-arcsecond-scale radio jet, and is blueshifted by ≈ 328 km s-1 from the blazar redshift. This is consistent with a scenario in which the HI cloud giving rise to the absorption is being driven outward by the radio jet. The integrated HI 21cm optical depth is (0.716 0.037) km s-1, implying a high HI column density, N HI = (1.305 0.067) × ( Ts/100\: K) × 1020 cm-2, for an assumed HI spin temperature of 100 K. We use Nickel Telescope photometry of TXS1954+513 to infer a high rest-frame 1216 \ luminosity of (4.1 1.2) × 1023 W Hz-1. The z = 1.2230 absorber towards TXS1954+513 is only the fifth case of a detection of associated HI 21cm absorption at z > 1, and is also the first case of such a detection towards an active galactic nucleus (AGN) with a rest-frame ultraviolet luminosity 1023 W Hz-1, demonstrating that neutral hydrogen can survive in AGN environments in the presence of high ultraviolet luminosities.