Hard X-ray photon index as an indicator of bolometric correction in active galactic nuclei

Abstract

We propose the rest-frame 2-10 keV photon index, , acting as an indicator of the bolometric correction, /L 2-10keV (where ~ is the bolometric luminosity and L 2-10keV is the rest-frame 2-10 keV luminosity), in radio-quiet active galactic nuclei (AGNs). Correlations between ~ and both bolometric correction and Eddington ratio are presented, based on simultaneous X-ray, UV, and optical observations of reverberation -mapped AGNs. These correlations can be compared with those for high-redshift AGNs to check for any evolutionary effect. Assuming no evolutionary effect in AGNs' spectral properties, together with the independent estimates of L 2-10keV, the bolometric correction, Eddington ratio, and black hole (BH) mass can all be estimated from these correlations for high-redshift AGNs, with the mean uncertainty of a factor of 2-3. If there are independent estimates of BH masses, ~ for high-redshift AGNs can be used to determine their true ~ and L 2-10keV, and in conjunction with the redshift, can be potentially used to place constraints on cosmology by comparison with the rest-frame 2-10 keV flux. We find that the true L 2-10keV estimated from ~ for the brightest Type I AGNs with z<1 in the Lockman Hole is generally in agreement with the observed L 2-10keV. However, there are still many uncertainties, such as the accurate determination of the intrinsic ~ for distant AGNs and the large uncertainty in the luminosities obtained, which call for significant further study before ``AGN cosmology'' can be considered a viable technique.