X-ray variability in a deep, flux limited sample of QSOs
arXiv:astro-ph/9912068 · doi:10.1046/j.1365-8711.2000.03385.x
Abstract
We present an analysis of X-ray variability in a flux limited sample of QSOs. Selected from our deep ROSAT survey, these QSOs span a wide range in redshift ($0.1<z<3.2$) and are typically very faint, so we have developed a method to constrain the amplitude of variability in ensembles of low signal-to-noise light curves. We find evidence for trends in this variability amplitude with both redshift and luminosity. The mean variability amplitude declines sharply with luminosity, as seen in local AGN, but with some suggestion of an upturn for the most powerful sources. We find tentative evidence that this is caused by redshift evolution, since the high redshift QSOs ($z>0.5$) do not show the anti-correlation with luminosity seen in local AGN. We speculate on the implications of these results for physical models of AGN and their evolution. Finally, we find evidence for X-ray variability in an object classified as a narrow emission-line galaxy, suggesting the presence of an AGN.
Accepted for publication in MNRAS. 11 pages, 12 encapsulated figures. Final proof version, with corrections to Equation A5, Figure 10 and references. Also available at http://www.roe.ac.uk/~omar/astro.html