High Mass Flow Rate in a BAL Outflow of Quasar SDSS J1130+0411

Abstract

We present the analysis of the absorption troughs of six outflows observed in quasar SDSS J1130+0411 (z ≈ 3.98) with radial velocities ranging from -2400 to -15,400 km s-1. These spectra were taken with the Very Large Telescope/Ultraviolet and Visual Echelle Spectrograph over the rest frame wavelength range of 1135-1890 A. In the main outflow system (v ≈ -3200 km s-1), we identify Fe II and several Fe II* absorption troughs as well as Si II and Si II* troughs, which we use to determine the electron number density ne = 2.6-0.7+0.8 cm-3. Using the column densities of these and other ions, we determine a photoionization solution with hydrogen column density NH = 21.44-0.33+0.24 cm-2 and ionization parameter UH = -1.75-0.45+0.28. From these values we derive the distance R = 16-11+23 kpc, the average mass flow rate M = 4100-2400+6600 M yr-1, and the kinetic luminosity Ek = 46.13-0.37+0.41 erg s-1. This Ek is 1.4-0.8+2.2% of the quasar's Eddington luminosity, and therefore contributes significantly to AGN feedback.