ZFIRE: Galaxy Cluster Kinematics, Hα Star Formation Rates, and Gas-Phase Metallicities of XMM-LSS J02182-05102 at z=1.6233

Abstract

We spectroscopically survey the galaxy cluster XMM-LSS J02182-05102 (hereafter IRC 0218) using LRIS (optical) and MOSFIRE (near-infrared) on Keck I as part of the ZFIRE survey. IRC 0218 has a narrow redshift range of 1.612<z spec<1.635 defined by 33 members of which 20 are at R proj<1 Mpc. The cluster redshift and velocity dispersion are z cl=1.62330.0003 and σ cl=25450 km s-1. We reach NIR line sensitivities of 0.3×10-17 erg s-1 cm-2 that, combined with multi-wavelength photometry, provide extinction-corrected Hα star formation rates (SFR), gas phase metallicities from [NII]/Hα, and stellar masses. We measure an integrated Hα SFR of 325 M yr-1 (26 members; R proj<2 Mpc) and show that the elevated star formation in the cluster core (R proj<0.25 Mpc) is driven by the concentration of star-forming members, but the average SFR per Hα-detected galaxy is half that of members at R proj1 Mpc. However, we do not detect any environmental imprint when comparing attenuation and gas phase metallicities: the cluster galaxies show similar trends with M as to the field, e.g. more massive galaxies have larger stellar attenuation. IRC 0218's gas phase metallicity-M relation (MZR) is offset to lower metallicities relative to z0 and has a slope of 0.130.10. Comparing the MZR in IRC 0218 to the COSMOS cluster at z=2.1 shows no evolution ( t1 Gyr): the MZR for both galaxy clusters are remarkably consistent with each other and virtually identical to several field surveys at z2.