The Rapid Build-up of Massive Early-type Galaxies. Supersolar Metallicity, High Velocity Dispersion and Young Age for an ETG at z=3.35

Abstract

Thanks to very deep spectroscopic observations carried out at the Large Binocular Telescope, we measured simultaneously stellar age, metallicity and velocity dispersion for C1-23152, an ETG at redshift z=3.352, corresponding to an epoch when the Universe was 1.8 Gyr old. The analysis of its spectrum shows that this galaxy, hosting an AGN, formed and assembled 2×1011 M shaping its morphology within the 600 Myr preceding the observations, since z4.6. The stellar population has a mean mass-weighted age 400+30-70 Myr and it is formed between 600 Myr and 150 Myr before the observed epoch, this latter being the time since quenching. Its high stellar velocity dispersion, σe=40960 km s-1, confirms the high mass (Mdyn=2.2(0.4)×1011 M) and the high mass density (eM*=1kpc=3.2(0.7)×1010 M kpc-2), suggesting a fast dissipative process at its origin. The analysis points toward a supersolar metallicity, [Z/H]=0.25+0.006-0.10, in agreement with the above picture, suggesting a star formation efficiency much higher than the replenishment time. However, sub-solar metallicity values cannot be firmly ruled out by our analysis. Quenching must have been extremely efficient to reduce the star formation to SFR<6.5 M yr-1 in less than 150 Myr. This could be explained by the presence of the AGN, even if a causal relation cannot be established from the data. C1-23152 has the same stellar and physical properties of the densest ETGs in the local Universe of comparable mass, suggesting that they are C1-23152-like galaxies which evolved to z=0 unperturbed.