A large narrow band Hα survey at z0.2: the bright end of the luminosity function, cosmic variance and clustering across cosmic time

Abstract

We carried out the largest (>3.5×105 Mpc3, 26 deg2) Hα narrow band survey to date at z0.2 in the SA22, W2 and XMMLSS extragalactic fields. Our survey covers a large enough volume to overcome cosmic variance and to sample bright and rare Hα emitters up to an observed luminosity of 1042.4 erg s-1, equivalent to 11 M yr-1. Using our sample of 220 sources brighter than >1041.4 erg s-1 (>1 M yr-1), we derive Hα luminosity functions, which are well described by a Schechter function with φ* = 10-2.850.03 Mpc-3 and L*Hα = 1041.710.02 erg s-1 (with a fixed faint end slope α=-1.35). We find that surveys probing smaller volumes (3×104 Mpc3) are heavily affected by cosmic variance, which can lead to errors of over 100 per cent in the characteristic density and luminosity of the Hα luminosity function. We derive a star formation rate density of SFRD = 0.00940.0008 M yr-1, in agreement with the redshift-dependent Hα parametrisation from Sobral et al. (2013). The two-point correlation function is described by a single power law ω(θ) = (0.1590.012) θ(-0.750.05), corresponding to a clustering length of r0 = 3.30.8 Mpc/h. We find that the most luminous Hα emitters at z0.2 are more strongly clustered than the relatively fainter ones. The L*Hα Hα emitters at z0.2 in our sample reside in 1012.5-13.5 M dark matter haloes. This implies that the most star forming galaxies always reside in relatively massive haloes or group-like environments and that the typical host halo mass of star-forming galaxies is independent of redshift if scaled by LHα/L*Hα(z), as proposed by Sobral et al. (2010).