The Covering Factor of Warm Dust in Quasars: View from WISE All-Sky Data Release

Abstract

By combining the newly infrared photometric data from the All-Sky Data Release of the Wide-field Infrared Survey Explorer with the spectroscopic data from the Seventh Data Release of the Sloan Digital Sky Survey, we study the covering factor of warm dust () for a large quasar sample, as well as the relations between and other physical parameters of quasars. We find a strong correlation between the flux ratio of mid-infrared to near-ultraviolet and the slope of near-ultraviolet spectra, which is interpreted as the dust extinction effect. After correcting for the dust extinction utilizing the above correlation, we examine the relations between and AGN properties: bolometric luminosity (), black hole mass () and Eddington ratio (L/L Edd). We confirm the anti-correlation between and . Further we find that is anti-correlated with , but is independent of L/L Edd. Radio-loud quasars are found to follow the same correlations as for radio-quiet quasars. Monte Carlo simulations show that the anisotropy of UV-optical continuum of the accretion disc can significantly affect, but is less likely to dominate the -- correlation.