A deep ROSAT survey - IV. The evolution of X-ray-selected QSOs
Abstract
We report on a new estimate of the QSO X-ray luminosity function and its evolution with redshift based on a sample of 107 QSOs detected at faint X-ray fluxes, S(0.5-2\,keV)>4×10-15\, , with the ROSAT X-ray satellite. For q0=0.5, the X-ray evolution of QSOs in this sample is consistent with strong luminosity evolution, L X *(z) (1+z)3.250.1, at low redshifts (z<1.60) and a constant comoving space density at higher redshifts. The derived rate of evolution at low redshifts is thus significantly higher than that obtained previously for the Einstein Extended Medium Sensitivity Survey (EMSS). Indeed, most luminosity evolution models provide a very poor fit (rejected at the 99 per cent confidence level) when applied to the combined EMSS and ROSAT samples, although a polynomial evolution model, L X *(z) 10(1.14\,z -0.23\,z2), provides an adequate fit for q0=0. For q0=0.5, a simple power-law luminosity evolution model with a redshift cut-off (L X *(z) (1+z)2.510.1,
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