The evolution of the heaviest super-massive black-holes in jetted AGNs

Abstract

We present the space density evolution, from z=1.5 up to z=5.5, of the most massive (M≥109M) black holes hosted in jetted Active Galactic Nuclei(AGNs). The analysis is based on a sample of 380 luminosity-selected (λL1350≥1046 erg s-1 and P5GHz≥1027 W Hz-1) Flat Spectrum Radio Quasars (FSRQs) obtained from the Cosmic Lens All Sky Survey (CLASS). These sources are known to be face-on jetted AGNs (i.e. blazars) and can be exploited to infer the abundance of all the (misaligned) jetted AGNs, using a geometrical argument. We then compare the space density of the most massive SMBHs hosted in jetted AGNs with those present in the total population (mostly composed by non-jetted AGNs). We find that the space density has a peak at z3, which is significantly larger than the value observed in the total AGN population with similar optical/UV luminosities (z2.2), but not as extreme as the value previously inferred from X-ray selected blazars (z4). The jetted fraction (jetted AGNs/total AGNs) is overall consistent with the estimates in the local Universe (10--20\%) and at high redshift, assuming Lorentz bulk factors ≈5. Finally, we find a marginal decrease in the jetted fraction at high redshifts (by a factor of 2). All these evidences point toward a different evolutionary path in the jetted AGNs compared to the total AGN population.