The Fundamental Plane of cluster spheroidal galaxies at z1.3. Evidence for mass-dependent evolution

Abstract

We present spectroscopic observations obtained at the Large Binocular Telescope in the field of the cluster XLSSJ0223-0436 at z=1.22. We confirm 12 spheroids cluster members and determine stellar velocity dispersion for 7 of them. We combine these data with those in the literature for clusters RXJ0848+4453 at z=1.27 (8 galaxies) and XMMJ2235-2557 at z=1.39 (7 galaxies) to determine the Fundamental Plane of cluster spheroids. We find that the FP at z1.3 is offset and rotated (3σ) with respect to the local FP. The offset corresponds to a mean evolution log(Mdyn/LB)=(-0.50.1)z. High-redshift galaxies follow a steeper mass-dependent Mdyn/LB-Mdyn relation than local ones. Assuming log(Mdyn/LB)= log(M*/LB), higher-mass galaxies (log(Mdyn/M)≥11.5) have a higher-formation redshift (zf≥6.5) than lower-mass ones (zf≤2 for log(Mdyn/M≤10)), with a median zf2.5 for the whole sample. Also, galaxies with higher stellar mass density host stellar populations formed earlier than those in lower density galaxies. At fixed IMF, Mdyn/M* varies systematically with mass and mass density. It follows that the evolution of the stellar populations (M*/LB) accounts for the observed evolution of Mdyn/LB for Mdyn>1011 M galaxies, while accounts for 85\% of the evolution at Mdyn<1011 M. We find no evidence in favour of structural evolution of individual galaxies, while we find evidences that spheroids later added to the population account for the observed discrepancy at masses <1011 M. [Abridged]