Low redshift AGN in the Hamburg/ESO Survey: I. The local AGN luminosity function

TL;DR

This paper determines the local luminosity function of optically selected type 1 AGN using the Hamburg/ESO Survey, revealing a double power law shape and evidence for luminosity-dependent evolution consistent with AGN downsizing.

Contribution

It provides the first comprehensive local AGN luminosity function spanning over four orders of magnitude, combining HES and SDSS data, and compares optical and X-ray luminosity functions.

Findings

The AGN luminosity function follows a double power law with slopes -2.0 and -2.8.

There is a smooth transition between Seyfert 1 and more luminous AGN.

Evidence supports luminosity-dependent evolution, consistent with AGN downsizing.

Abstract

We present a determination of the local (z=0) luminosity function of optically selected type 1 (broad-line) Active Galactic Nuclei. Our primary resource is the Hamburg/ESO Survey (HES), which provides a well-defined sample of more than 300 optically bright AGN with redshifts z<0.3 and blue magnitudes B<17.5. AGN luminosities were estimated in two ways, always taking care to minimise photometric biases due to host galaxy light contamination. Firstly, we measured broad-band B_J (blue) magnitudes of the objects over small apertures of the size of the seeing disk. Secondly, we extracted H alpha and H beta broad emission line luminosities from the spectra which should be entirely free of any starlight contribution. The resulting AGN luminosity function (AGNLF) is consistent with a single power law, also when considering the effects of number density evolution within the narrow redshift range. We compared our AGNLF with the H alpha luminosity function of lower luminosity Seyfert 1 galaxies by Hao et al. (2005) and found a smooth transition between both, with excellent agreement in the overlapping region. From the combination of HES and SDSS samples we constructed a single local AGNLF spanning more than 4 orders of magnitude in luminosity. It shows only mild curvature which can be well described as a double power law with slope indices of -2.0 for the faint end and -2.8 for the bright end. We predicted the local AGNLF in the soft X-ray domain and compared this to recent literature data. We also compared the local AGNLF with results obtained at higher redshifts and find strong evidence for luminosity-dependent evolution, in the sense that AGN with luminosities around M_B~-19 are as common in the local universe as they were at z=1.5, supporting the 'AGN downsizing' picture (abridged).