Revisit of Local X-ray Luminosity Function of Active Galactic Nuclei with the MAXI Extragalactic Survey

Abstract

We construct a new X-ray (2--10 keV) luminosity function of Compton-thin active galactic nuclei (AGNs) in the local universe, using the first MAXI/GSC source catalog surveyed in the 4--10 keV band. The sample consists of 37 non-blazar AGNs at z=0.002-0.2, whose identification is highly (>97%) complete. We confirm the trend that the fraction of absorbed AGNs with N H > 1022 cm-2 rapidly decreases against luminosity (L X), from 0.730.25 at L X = 1042-43.5 erg s-1 to 0.120.09 at L X = 1043.5-45.5 erg s-1. The obtained luminosity function is well fitted with a smoothly connected double power-law model whose indices are γ1 = 0.84 (fixed) and γ2 = 2.00.2 below and above the break luminosity, L* = 1043.30.4 ergs s-1, respectively. While the result of the MAXI/GSC agrees well with that of HEAO-1 at L X 1043.5 erg s-1, it gives a larger number density at the lower luminosity range. Comparison between our luminosity function in the 2--10 keV band and that in the 14--195 keV band obtained from the Swift/BAT survey indicates that the averaged broad band spectra in the 2--200 keV band should depend on luminosity, approximated by 1.7 for L X 1044 erg s-1 while 2.0 for L X 1044 erg s-1. This trend is confirmed by the correlation between the luminosities in the 2--10 keV and 14--195 keV bands in our sample. We argue that there is no contradiction in the luminosity functions between above and below 10 keV once this effect is taken into account.