Broad Emission and Absorption Line Outflows in the Quasar SDSS J163345.22+512748.4

Abstract

We present a detailed study of the optical and NIR emission and absorption line spectrum of the quasar SDSS J163345.22+512748.4. We discovered on the newly acquired NIR spectrum a highly meta-stable neutral helium broad absorption line (BAL) \ with a width of 2000 \ and a blueshift of 7000 \ in the velocity space. The BAL system is also significantly detected in \ and . We estimate a column density of (5.0 1.7) × 1014 cm-2 for the HeI*(2~3S) level, and infer an ionization parameter of UA = 10-1.9 0.2 for the BAL outflow assuming that the BAL region is thick enough for a full development of an ionization front. The total column density of the BAL outflow is constrained in the range N H 1021-1021.4 cm-2. We also found that the bulk of both MgII and UV FeII, as well as Hα broad emission lines (BELs) are blueshifted with a velocity of 2200 \ with respect to the quasar systemic redshift. We constrain that the blueshifted BEL region has a covering factor Cf≈ 16\%, a density n H 1010.6-1011.3 cm-3, a column density N H 1023 cm-2, and an ionization parameter UE 10-2.1-10-1.5. The outflow gas is located at 0.1 pc away from the central ionization source, at a scale comparable to the BLR. A toy kinetic model has been proposed to reproduce the profile of MgII BEL well if assuming a partial obscured axisymmetric geometry of the outflow with a radial velocity as observed by the BALs.