An Apparent Redshift Dependence of Quasar Continuum: Implication for Cosmic Dust Extinction?

Abstract

We investigate the luminosity and redshift dependence of the quasar continuum by means of composite spectrum using a large non-BAL radio-quiet quasar sample drawn from the Sloan Digital Sky Survey. Quasar continuum slopes in the UV-Opt band are measured at two different wavelength ranges, i.e., α12 (1000 2000 ) and α24 (2000 4000 ) derived from power law fitting. Generally, the UV spectra slope becomes harder (higher α) towards higher bolometric luminosity. On the other hand, when quasars are further grouped into luminosity bins, we find both α12 and α24 show significant anti-correlation with redshift (i.e., quasar continuum becomes redder towards higher redshift). We suggest that the cosmic dust extinction is very likely the cause of this observed α-z relation. We build a simple cosmic dust extinction model to quantify the observed reddening tendency and find an effective dust density nσv 10-5h~ Mpc-1 at z<1.5. The other possibilities that could produce such a reddening effect have also been discussed.