Investigating MgII Absorption in Paired Quasar Sight-Lines

Abstract

We test whether the Tinker & Chen model of MgII absorption due to the gaseous halo around a galaxy can reproduce absorption in quasar pairs (both lensed and physical) and lensed triples and quads from the literature. These quasars exhibit absorption from a total of 38 MgII systems spanning z=0.043 - 2.066 with mean redshift <z>=1.099 and weighted mean rest-frame equivalent width of 0.87 Ang. Using the Tinker & Chen model to generate simulated sight-lines, we marginalize the unknown parameters of the absorbing galaxies: dark matter halo mass, impact parameter, and azimuthal angle on the sky. We determine the ability of the model to statistically reproduce the observed variation in MgII absorption strength between paired sight-lines for different values of the gas covering fraction fc and the characteristic length scale ellc, within which the variation in absorption equivalent widths between sight-lines exponentially decreases. We find a best-fit fc=0.60 0.15 and ellc<8/h70 kpc (1σ confidence limits), with smaller fc allowed at larger ellc. At 99.7% confidence, we are able to rule out fc>0.87 for all values of ellc and the region where ellc<1.0/h70 kpc and fc<0.3.