Characterizing the Circumgalactic Medium of Quasars at z 2.2 through Hα and Lyα Emission

Abstract

The discovery of giant quasar Lyα nebulae at z>2 has opened up the possibility to directly study in emission the Circumgalactic and Intergalactic Medium (CGM/IGM). However, the resonant nature of the Lyα line and its different emission mechanisms hamper the ability to constrain both the kinematics and physical properties of the CGM/IGM. Here, we present results of a pilot project aiming at the detection of CGM Hα emission, a line which does not suffer from these limitations. To this end, we first used KCWI to detect Lyα emission around three bright quasars with 2.25<z<2.27, a range which is free from bright IR sky lines for Hα, and then selected the most extended nebula for Hα follow-up with MOSFIRE. Within the MOSFIRE slit, we detected Hα emission extending up to 20 physical kpc with a total Hα flux of F Hα=(9.5 0.9) × 10-18 erg s-1 cm-2. Considering the Lyα flux in the same region, we found F Lyα/F Hα=3.7 0.3 consistent with that obtained for the Slug Nebula at z=2.275 and with recombination radiation. This implies high densities or a very broad density distribution within the CGM of high-redshift quasars. Moreover, the Hα line profile suggests the presence of multiple emitting components overlapping along our line-of-sight and relatively quiescent kinematics, which seems incompatible with either quasar outflows capable of escaping the potential well of the host halo or disk-like rotation in a massive halo (>1012M).