OH absorption in the first quadrant of the Milky Way as seen by THOR
2018
Context. The hydroxyl radical (OH) is present in the diffuse molecular and partially atomic phases of the interstellar medium (ISM),
but its abundance relative to hydrogen is not clear.
Aims. We aim to evaluate the abundance of OH with respect to molecular hydrogen using OH absorption against cm-continuum
sources over the first Galactic quadrant.
Methods. This OH study is part of the Hi/OH/Recombination line survey of the inner Milky Way (THOR). THOR is a Karl G.
Jansky Very Large Array (VLA) large program of atomic, molecular and ionized gas in the range 15? ? l ? 67? and |b| ? 1?. It is
the highest-resolution unbiased OH absorption survey to date towards this region. We combine the optical depths derived from these
observations with literature 13CO(1-0) and Hi observations to determine the OH abundance.
Results. We detect absorption in the 1665 and 1667MHz transitions, that is, the “main” hyperfine structure lines, for continuum
sources stronger than Fcont ? 0.1 Jy beam?1. OH absorption is found against approximately 15% of these continuum sources with
increasing fractions for stronger sources. Most of the absorption occurs in molecular clouds that are associated with Galactic Hii
regions. We find OH and 13CO gas to have similar kinematic properties. The data indicate that the OH abundance decreases with
increasing hydrogen column density. The derived OH abundance with respect to the total hydrogen nuclei column density (atomic
and molecular phase) is in agreement with a constant abundance for AV < 10 ? 20. Towards the lowest column densities, we find
sources that exhibit OH absorption but no 13CO emission, indicating that OH is a well suited tracer of the low column density
molecular gas. We also present spatially resolved OH absorption towards the prominent extended Hii-region W43.
Conclusions. The unbiased nature of the THOR survey opens a new window onto the gas properties of the interstellar medium. The
characterization of the OH abundance over a large range of hydrogen gas column densities contributes to the understanding of OH as
a molecular gas tracer and provides a starting point for future investigations.
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