Intrinsic Alignments and Spin Correlations of [OII] Emitters at z=1.2 and z=1.5 from HSC Narrow-band Survey

Abstract

Galaxies are known to be aligned toward specific directions within the large-scale structure. Such alignment signals become important for controlling the systematics of weak lensing surveys and for constraining galaxy formation and evolution scenarios. We measure the galaxy-ellipticity and ellipticity-ellipticity correlation functions for blue star-forming galaxies at z=1.19 and z=1.47 that are selected by detecting [OII] emission lines in narrow-band filters of the Hyper Suprime-Cam on the Subaru Telescope. Assuming that disk galaxies are thin and rotation-supported, we also measure the spin correlation function by estimating spin directions with ellipticities and position angles. Above 1 \; h-1 Mpc, we do not find significant signals for galaxy-ellipticity, ellipticity-ellipticity, or spin correlations at both redshifts. Below 1 \; h-1 Mpc, a weak deviation from zero is seen at z=1.47, implying weak spin-filament correlations, but it is not verified by the direct comparison between angles of spins and filaments. The linear alignment model fit yields the amplitude parameter A NLA=1.382.32 at z=1.19 and 0.452.09 at z=1.47 (95\% confidence levels). We discuss various observational and physical origins that affect the search for alignments of disk galaxies at high redshifts.