Dynamical Modeling of the CIV Broad Line Region of the z=2.805 Multiply Imaged Quasar SDSS J2222+2745

Abstract

We present CIV BLR modeling results for the multiply imaged z=2.805 quasar SDSS J2222+2745. Using data covering a 5.3 year baseline after accounting for gravitational time delays, we find models that can reproduce the observed emission-line spectra and integrated CIV fluctuations. The models suggest a thick disk BLR that is inclined by 40 degrees to the observer's line of sight and with a emissivity weighted median radius of r median = 33.0+2.4-2.1 light days. The kinematics are dominated by near-circular Keplerian motion with the remainder inflowing. The rest-frame lag one would measure from the models is τ median = 36.4+1.8-1.8 days, which is consistent with measurements based on cross-correlation. We show a possible geometry and transfer function based on the model fits and find that the model-produced velocity-resolved lags are consistent with those from cross-correlation. We measure a black hole mass of 10(M BH/M) = 8.31+0.07-0.06, which requires a scale factor of 10(f mean,σ) = 0.20+0.09-0.07.