First HETDEX Spectroscopic Determinations of Lyα and UV Luminosity Functions at z=2-3: Bridging a Gap Between Faint AGN and Bright Galaxies

Abstract

We present Lyα and ultraviolet-continuum (UV) luminosity functions (LFs) of galaxies and active galactic nuclei (AGN) at z=2.0-3.5 determined by the un-targetted optical spectroscopic survey of the Hobby-Eberly Telescope Dark Energy Experiment (HETDEX). We combine deep Subaru imaging with HETDEX spectra resulting in 11.4 deg2 of fiber-spectra sky coverage, obtaining 18320 galaxies spectroscopically identified with Lyα emission, 2126 of which host type 1 AGN showing broad (FWHM~>1000 km s-1) Lyα emission lines. We derive the Lyα (UV) LF over 2 orders of magnitude covering bright galaxies and AGN in LLyα/[erg~s-1]=43.3-45.5 (-27<MUV<-20) by the 1/Vmax estimator. Our results reveal the bright-end hump of the Lyα LF is composed of type 1 AGN. In conjunction with previous spectroscopic results at the faint end, we measure a slope of the best-fit Schechter function to be αSch=-1.70+0.13-0.14, which indicates αSch steepens from z=2-3 towards high redshift. Our UV LF agrees well with previous AGN UV LFs, and extends to faint-AGN and bright-galaxy regimes. The number fraction of Lyα-emitting objects (XLAE) increases from MUV*-21 to bright magnitude due to the contribution of type 1 AGN, while previous studies claim that XLyα decreases from faint magnitude to MUV*, suggesting a valley in the XLyα-magnitude relation at MUV*. Comparing our UV LF of type 1 AGN at z=2-3 with those at z=0, we find that the number density of faint (MUV>-21) type 1 AGN increases from z2 to z0 as opposed to the evolution of bright (MUV<-21) type 1 AGN, suggesting the AGN downsizing in the rest-frame UV luminosity.