HyGAL: Characterizing the Galactic ISM with observations of hydrides and other small molecules. III. The absorption lines of [O I], CH, and OH

Abstract

The HyGAL Stratospheric Observatory for Infrared Astronomy (SOFIA) legacy program aims at characterizing the interstellar medium in the Milky Way using hydrides, [C II], and [O I] absorption lines with the 2.7 m SOFIA telescope toward twenty-five submillimeter-bright Galactic star-forming regions. As part of HyGAL, we investigated correlations among the known H2 tracers -- CH and OH from SOFIA observations, and HCO+ and CCH from ancillary absorption line data from ground-based telescopes. We also examined the abundance variation of neutral atomic oxygen, [O I], observed in absorption. CH, OH, HCO+, and CCH all exhibit strong mutual correlations. OH in particular shows tight correlations with HCO+ and CCH, reflecting their linked chemical and physical pathways. Column density ratios among these H2 tracers are consistent with previous measurements in local diffuse clouds and remain uniform across Galactic environments and velocity intervals. The gas phase oxygen abundance relative to total hydrogen, X(O)=N(O)/N(H total), is (3.090.64)×10-4, slightly below the elemental solar value but consistent with the previous observations measuring gas-phase abundances. We also find that N(HI) decreases toward the regions where the molecular fraction exceeds fH2N 0.5, marking the onset of the molecular phase. While the atomic oxygen abundance remains roughly constant, the abundances of OH, HCO+, and CCH increase with the molecular fraction. Gas traced by the HCO+ absorption corresponds to higher molecular fractions than that traced by HI and hydride ions, highlighting density variations in the diffuse-to-translucent ISM along different lines of sight.