Cosmological-Scale Lyman-alpha Forest Absorption Around Galaxies and AGN Probed with the HETDEX and SDSS Spectroscopic Data

Abstract

We present cosmological-scale 3-dimensional (3D) neutral hydrogen ( Hi) tomographic maps at z=2-3 over a total of 837 deg2 in two blank fields that are developed with Lyα forest absorptions of 14,736 background Sloan Digital Sky Survey (SDSS) quasars at z=2.08-3.67. Using the tomographic maps, we investigate the large-scale ( 10 h-1cMpc) average Hi radial profiles and two-direction profiles of the line-of-sight (LoS) and transverse (Trans) directions around galaxies and AGN at z=2-3 identified by the Hobby-Eberly Telescope Dark Energy eXperiment (HETDEX) and SDSS surveys, respectively. The peak of the Hi radial profile around galaxies is lower than the one around AGN, suggesting that the dark-matter halos of galaxies are less massive on average than those of AGN. The LoS profile of AGN is narrower than the Trans profile, indicating the Kaiser effect. There exist weak absorption outskirts at 30 h-1cMpc beyond Hi structures of galaxies and AGN found in the LoS profiles that can be explained by the Hi gas at 30 h-1cMpc falls toward the source positions. Our findings indicate that the Hi radial profile of AGN has transitions from proximity zones ( a few h-1cMpc) to the Hi structures ( 1-30 h-1cMpc) and the weak absorption outskirts ( 30 h-1cMpc). Although there is no significant dependence of AGN types (type-1 vs. type-2) on the Hi profiles, the peaks of the radial profiles anti-correlate with AGN luminosities, suggesting that AGN's ionization effects are stronger than the gas mass differences.