Highly Ionized Plasma in the Halo of a Luminous Spiral Galaxy Near z=0.225

TL;DR

This study analyzes highly ionized plasma in galaxy halos at z~0.225, revealing multi-phase gas conditions, collisionally ionized O VI, and potential analogs to Galactic high-velocity clouds, providing insights into galaxy halo gas dynamics.

Contribution

First detailed multi-phase analysis of ionized gas in galaxy halos at z~0.225, linking absorption features to halo gas processes and galaxy environment.

Findings

O VI absorption linked to collisionally ionized plasma at T ~ 10^5 K.

Detection of multi-phase gas with photoionized and collisionally ionized components.

Evidence for gas cooling and interface layers in galaxy halos.

Abstract

We present analyses of the physical conditions in the z=0.22496 and z=0.22638 multi-phase O VI absorption systems detected in the ultraviolet HST/STIS and FUSE spectra of the quasar H1821+643. Both absorbers are likely associated with the extended halo of a ~2L* Sbc-Sc galaxy situated at a projected distance of ~116 kpc from the sight line. The z=0.22496 absorber is detected in C II, C III, C IV, O III, O VI, Si II, Si III and H I at > 3 sigma significance. The low and intermediate ions in this absorber are consistent with an origin in photoionized gas with [Si/H] and [C/H] of -0.6 dex. In contrast, the broader O VI absorption is likely produced in collisionally ionized plasma under nonequilibrium conditions. The z=0.22638 system has broad-Lya (BLA) and C III absorption offset by v = -53 km/s from O VI. The H I and C III line widths for the BLA imply T = 1.1 x 10^5 K. For non-equilibrium cooling we obtain [C/H] of -1.5 dex and a total hydrogen column of N(H) = 3.2 x 10^{18} cm^-2 in the BLA. The O VI, offset from the BLA with no detected H I or C III, is likely collisionally ionized at T ~ 3 x 10^5 K. From the observed multiphase properties and the proximity to a luminous galaxy, we propose that the z=0.22496 absorber is an extragalactic analog of a highly ionized Galactic HVC, in which the O VI is produced in transition temperature plasma (T ~ 10^5 K) at the interface layers between the warm HVC gas phase and the hot coronal halo of the galaxy. The z=0.22638 O VI - BLA absorber could be tracing a cooling condensing fragment in the nearby galaxy's hot gaseous halo.