The KMOS Cluster Survey (KCS) I: The fundamental plane and the formation ages of cluster galaxies at redshift 1.4<z<1.6

Abstract

We present the analysis of the fundamental plane (FP) for a sample of 19 massive red-sequence galaxies (M >4×1010 M) in 3 known overdensities at 1.39<z<1.61 from the KMOS Cluster Survey, a guaranteed time program with spectroscopy from the K-band Multi-Object Spectrograph (KMOS) at the VLT and imaging from the Hubble Space Telescope. As expected, we find that the FP zero-point in B band evolves with redshift, from the value 0.443 of Coma to -0.100.09, -0.190.05, -0.290.12 for our clusters at z=1.39, z=1.46, and z=1.61, respectively. For the most massive galaxies ( M/M>11) in our sample, we translate the FP zero-point evolution into a mass-to-light-ratio M/L evolution finding M/LB=(-0.460.10)z, M/LB=(-0.520.07)z, to M/LB=(-0.550.10)z, respectively. We assess the potential contribution of the galaxies structural and stellar velocity dispersion evolution to the evolution of the FP zero-point and find it to be 6-35 % of the FP zero-point evolution. The rate of M/L evolution is consistent with galaxies evolving passively. By using single stellar population models, we find an average age of 2.33+0.86-0.51 Gyr for the M/M>11 galaxies in our massive and virialized cluster at z=1.39, 1.59+1.40-0.62 Gyr in a massive but not virialized cluster at z=1.46, and 1.20+1.03-0.47 Gyr in a protocluster at z=1.61. After accounting for the difference in the age of the Universe between redshifts, the ages of the galaxies in the three overdensities are consistent within the errors, with possibly a weak suggestion that galaxies in the most evolved structure are older.