High Energy Large Area Surveys: from BeppoSAX to Chandra and XMM-Newton

Abstract

Abstract Hard X-ray observations are the most efficient way to discriminate accretion-powered sources from star-light. Furthermore, hard X-rays are less affected by obscuration than other bands. For these reasons the advent of imaging instruments above 2 keV has permitted to dramatically improve our understanding of accretion-powered sources and their cosmic evolution. By minimizing the problems of AGN selection and nuclear obscuration, the combination of deep and shallow hard X-ray surveys, performed first with ASCA and BeppoSAX and then with Chandra and XMM (e.g. ASCA LSS, HELLAS, CDFN, CDFS, Lockman Hole, SSA13, HELLAS2XMM etc.), allows a detailed study of the evolution of accreting sources. Somewhat surprising results are emerging: 1) the sources making the Cosmic X-ray Background peak at a redshift (z=0.7-1) lower than soft X-ray selected sources and lower than predicted by synthesis models for the CXB; 2) there is strong evidence of a luminosity dependence of the evolution, low luminosity sources (i.e. Seyfert galaxies) peaking at a significantly later cosmic time than high luminosity sources.