Cosmological Evolution of the Hard X‐Ray Active Galactic Nucleus Luminosity Function and the Origin of the Hard X‐Ray Background
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Abstract
We investigate the cosmological evolution of the hard X-ray luminosity function (HXLF) of active galactic nuclei (AGNs) in the 2-10 keV luminosity range of 10 41.5 -10 46.5 ergs s 1 as a function of redshift up to 3. From a combination of surveys conducted at photon energies above 2 keV with HEAO 1, ASCA, and Chandra, we construct a highly complete (>96%) sample consisting of 247 AGNs over the wide flux range of 10 10 to 3:8 10 15 ergs cm 2 s 1 (2-10 keV).For our purpose, we develop an extensive method of calculating the intrinsic (before absorption) HXLF and the absorption (N H ) function.This utilizes the maximum likelihood method, fully correcting for observational biases with consideration of the X-ray spectrum of each source.We find that (1) the fraction of X-ray absorbed AGNs decreases with the intrinsic luminosity and (2) the evolution of the HXLF of all AGNs (including both type I and type II AGNs) is best described with a luminositydependent density evolution (LDDE) where the cutoff redshift increases with the luminosity.Our results directly constrain the evolution of AGNs that produce a major part of the hard X-ray background, thus solving its origin quantitatively.A combination of the HXLF and the N H function enables us to construct a purely '' observation-based '' population synthesis model.We present basic consequences of this model and discuss the contribution of Compton-thick AGNs to the rest of the hard X-ray background.
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