The Hα Luminosity Function and Star Formation Rate at z ≈ 0.24 in the Cosmos 2 Square-Degree Field

Abstract

To derive a new Hα luminosity function and to understand the clustering properties of star-forming galaxies at z ≈ 0.24, we have made a narrow-band imaging survey for Hα emitting galaxies in the HST COSMOS 2 square degree field. We used the narrow-band filter NB816 (λc = 8150 , λ = 120 ) and sampled Hα emitters with EW obs( Hα + [Nii]) > 12 in a redshift range between z=0.233 and z=0.251 corresponding to a depth of 70 Mpc. We obtained 980 Hα emitting galaxies in a sky area of 5540 arcmin2, corresponding to a survey volume of 3.1 × 104 Mpc3. We derive a Hα luminosity function with a best-fit Schechter function parameter set of α = -1.35+0.11-0.13, φ* = -2.65+0.27-0.38, and L* ( erg s-1) = 41.94+0.38-0.23. The Hα luminosity density is 2.7+0.7-0.6 × 1039 ergs s-1 Mpc-3. After subtracting the AGN contribution (15 %) to the Hα luminosity density, the star formation rate density is evaluated as 1.8+0.7-0.4 × 10-2 M yr-1 Mpc-3. The angular two-point correlation function of Hα emitting galaxies of L( Hα) > 39.8 is well fit by a power law form of w(θ) = 0.013+0.002-0.001 θ-0.88 0.03, corresponding to the correlation function of (r) = (r/1.9 Mpc)-1.88. We also find that the Hα emitters with higher Hα luminosity are more strongly clustered than those with lower luminosity.