MAMMOTH-Subaru V. Effects of Cosmic Variance on Lyα Luminosity Functions at z=2.2-2.3

Abstract

Cosmic variance introduces significant uncertainties into galaxy number density properties when surveying the high-z Universe with a small volume, such uncertainties produce the field-to-field variance of galaxy number σg in observational astronomy. This uncertainty significantly affects the Luminosity Functions (LF) measurement of Lya Emitters (LAEs). For most previous Lya LF studies, σg is often adopted from predictions by cosmological simulations, but barely confirmed by observations. Measuring cosmic variance requires a huge sample over a large volume, exceeding the capabilities of most astronomical instruments. In this study, we demonstrate an observational approach for measuring the cosmic variance contribution for z≈2.2 Lya LFs. The LAE candidates are observed using narrowband and broadband of the Subaru/Hyper Suprime-Cam (HSC), with 8 independent fields, making the total survey area 11.62deg2 and a comoving volume of 8.71×106Mpc3. These eight fields are selected using the project of MAMMOTH. We report a best-fit Schechter function with parameters α=-1.75 (fixed), LLyα*=5.18-0.40+0.43 × 1042erg s-1 and φLya*=4.87-0.55+0.54×10-4Mpc-3 for the overall Lya LFs. After clipping out the regions that can bias the cosmic variance measurements, we calculate σg, by sampling LAEs within multiple pointings assigned on the field image. We investigate the relation between σg and survey volume V, and fit a simple power law: σg=k×(V eff105 Mpc3)β. We find best-fit values of -1.209-0.106+0.106 for β and 0.986-0.100+0.108 for k. We compare our measurements with predictions from simulations and find that the cosmic variance of LAEs might be larger than that of general star-forming galaxies.