A Sub-solar Fe/O, logT~7.5 Gas Component Permeating the Milky Way's CGM
Abstract
Our study focuses on characterizing the highly ionized gas within the Milky Way's (MW) Circumgalactic Medium (CGM) that gives rise to ionic transitions in the X-ray band 2 - 25 . Utilizing stacked /\ \ and \ spectra toward QSO sightlines, we employ the self-consistent hybrid ionization code PHASE to model our data. The stacked spectra are optimally described by three distinct gas phase components: a \ (\ 5.5), \ (\ 6), and \ (\ 7.5) components. These findings confirm the presence of the \ component in the MW's CGM indicating its coexistence with a \ and a \ gas phases. We find this \ component to be homogeneous in temperature but inhomogeneous in column density. The gas in the \ component requires over-abundances relative to solar to be consistent with the Dispersion Measure (DM) from the Galactic halo reported in the literature. For the hot phase we estimated a DM = 55.1+29.9-23.7 pc cm-3. We conclude that this phase is either enriched in Oxygen, Silicon, and Sulfur, or has metallicity over 6 times solar value, or a combination of both. We do not detect Fe L-shell absorption lines, implying O/Fe ≥ 4. The non-solar abundance ratios found in the super-virial gas component in the Galactic halo suggest that this phase arises from Galactic feedback.
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