Cluster and field elliptical galaxies at z~1.3. The marginal role of the environment and the relevance of the galaxy central regions

Abstract

We compared the properties of 56 elliptical galaxies selected from three clusters at 1.2<z<1.4 with those of field galaxies in the GOODS-S (~30), COSMOS (~180) and CANDELS (~220) fields. We studied the relationships among effective radius, surface brightness, stellar mass, stellar mass density Re and central mass density 1kpc within 1 kpc radius. We find that cluster ellipticals do not differ from field ellipticals: they share the same structural parameters at fixed mass and the same scaling relations. On the other hand, the population of field ellipticals at z1.3 shows a significant lack of massive (M*> 2× 1011 M) and large (Re > 4-5 kpc) ellipticals with respect to the cluster. Nonetheless, at M*<2× 1011 M, the two populations are similar. The size-mass relation of ellipticals at z~1.3 defines two different regimes, above and below a transition mass mt 2-3×1010 M: at lower masses the relation is nearly flat (Re M*-0.1 0.2), the mean radius is constant at ~1 kpc and Re 1kpc while, at larger masses, the relation is Re M*0.640.09. The transition mass marks the mass at which galaxies reach the maximum Re. Also the 1kpc-mass relation follows two different regimes, 1kpc M*0.64\ >mt1.07\ <mt, defining a transition mass density 1kpc 2-3×103 M pc-2. The mass density Re does not correlate with mass, dense/compact galaxies can be assembled over a wide mass regime, independently of the environment. The central mass density, 1kpc, besides to be correlated with the mass, is correlated to the age of the stellar population: the higher the central stellar mass density, the higher the mass, the older the age of the stellar population. [Abridged]