Revealing the Milky Way's Hidden Circumgalactic Medium with the Cosmic Origins Spectrograph Quasar Database for Galactic Absorption Lines

Abstract

Every quasar (QSO) spectrum contains absorption-line signatures from the interstellar medium, disk-halo interface, and circumgalactic medium (CGM) of the Milky Way (MW). We analyze Hubble Space Telescope/Cosmic Origins Spectrograph (COS) spectra of 132 QSOs to study the significance and origin of SiIV absorption at |v LSR|≤100 km/s in the Galactic halo. The gas in the north predominantly falls in at -50 v LSR 0 km/s, whereas in the south, no such pattern is observed. The SiIV column density has an average and a standard deviation of N SiIV=(3.81.4)×1013 cm-2. At |b| 30 degree, N SiIV does not significantly correlate with b, which cannot be explained by a commonly adopted flat-slab geometry. We propose a two-component model to reconstruct the N SiIV-b distribution: a plane-parallel component N DH to account for the MW's disk-halo interface and a global component N G to reproduce the weak dependence on b. We find N DH=1.3+4.7-0.7×1012 cm-2 and N G=(3.40.3)×1013 cm-2 on the basis of Bayesian analyses and block bootstrapping. The global component is most likely to have a Galactic origin, although its exact location is uncertain. If it were associated with the MW's CGM, we would find M gas, all4.7×109\ M (Cf1)(R75\ kpc)2 (f SiIV0.3)-1(Z0.3\ Z)-1 for the cool gas at all velocities in the Galactic halo. Our analyses show that there is likely a considerable amount of gas at |v LSR|≤100 km s-1 hidden in the MW's CGM. Along with this work, we make our QSO dataset publicly available as the COS Quasar Database for Galactic Absorption Lines (COS-GAL).