Kinematic analysis of an Ultra-Strong MgII absorber at z~1.13 linking to Circumgalactic Gas Structures
Abstract
We present a spectroscopic and imaging analysis of the zgal ≈ 1.1334 ultra-strong MgII absorption system identified in the VLT/UVES spectrum of a background quasar located at ≈ 18 kpc from a star-forming galaxy. Low ionization metal lines like MgI, FeII, and CaII are also detected for this absorber. The HI lines are outside of the wavelength coverage. The MgII has a rest-frame equivalent width of Wr(2796) =3.185 +/- 0.032 A , with the absorption spread across v ≈ 460 km~s-1 in several components. A component-by-component ionization modeling shows several of these components having solar and higher metallicities. The models also predict a total HI column density of log[N(HI)/cm-2] ≈ 22.5, consistent with ultra-strong MgII absorbers being sub-Damped Lyman Alpha and Damped Lyman Alpha systems. The absorber is well within the virial radius of the nearest galaxy which has a stellar mass M* = 4.7 × 1010~M, and a star formation rate of ≈ 8.3~M~yr-1. The absorption is along the projected major axis of the galaxy with a velocity spread that is wider than the galaxy's disk rotation. From the kinematic analysis of the absorber and the galaxy, the origin of the absorption can be attributed to a combination of circumgalactic gas structures, some corotating with the disk and the rest at line-of-sight velocities outside of the disk rotation.
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