The FMOS-COSMOS survey of star-forming galaxies at z1.6 VI: Redshift and emission-line catalog and basic properties of star-forming galaxies

Abstract

We present a new data release from the Fiber Multi-Object Spectrograph (FMOS)-COSMOS survey, which contains the measurements of spectroscopic redshift and flux of rest-frame optical emission lines (Hα, [NII], [SII], Hβ, [OIII]) for 1931 galaxies out of a total of 5484 objects observed over the 1.7 deg2 COSMOS field. We obtained H-band and J-band medium-resolution (R3000) spectra with FMOS mounted on the Subaru telescope, which offers an in-fiber line flux sensitivity limit of 1 × 10-17~erg~s-1~cm-2 for an on-source exposure time of five hours. The full sample contains the main population of star-forming galaxies at z1.6 over the stellar mass range 109.5 M/M 1011.5, as well as other subsamples of infrared-luminous galaxies detected by Spitzer and Herschel at the same and lower (z0.9) redshifts and X-ray emitting galaxies detected by Chandra. This paper presents an overview of our spectral analyses, a description of the sample characteristics, and a summary of the basic properties of emission-line galaxies. We use the larger sample to re-define the stellar mass--star formation rate relation based on the dust-corrected Hα luminosity, and find that the individual galaxies are better fit with a parametrization including a bending feature at M≈1010.2~M, and that the intrinsic scatter increases with M from 0.19 to 0.37 dex. We also confirm with higher confidence that the massive (M1010.5~M) galaxies are chemically mature as much as local galaxies with the same stellar masses, and that the massive galaxies have lower [SII]/Hα ratios for their [OIII]/Hβ, as compared to local galaxies, which is indicative of enhancement in ionization parameter.