Solar-Metallicity Gas in the Extended Halo of a Galaxy at z 0.12

Abstract

We present the detection and analysis of a weak low-ionization absorber at z = 0.12122 along the blazar sightline PG~1424+240, using spectroscopic data from both HST/COS and STIS. The absorber is a weak Mg II analogue, with incidence of weak C II and Si II, along with multi-component C IV and O VI. The low ions are tracing a dense (nH 10-3 cm-3) parsec scale cloud of solar or higher metallicity. The kinematically coincident higher ions are either from a more diffuse (nH 10-5 - 10-4 cm-3) photoionized phase of kiloparsec scale dimensions, or are tracing a warm (T 2 × 105 K) collisionally ionized transition temperature plasma layer. The absorber resides in a galaxy overdense region, with 18 luminous (> L*) galaxies within a projected radius of 5 Mpc and 750 km s-1 of the absorber. The multi-phase properties, high metallicity and proximity to a 1.4 L* galaxy, at 200 kpc and | v| = 11 km s-1 separation, favors the possibility of the absorption tracing circumgalactic gas. The absorber serves as an example of weak Mg II - O VI systems as a means to study multiphase high velocity clouds in external galaxies.