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Shocks and Molecules in Diffuse Interstellar Cloud Pairs

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 Added by William T. Reach
 Publication date 2021
  fields Physics
and research's language is English




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The diffuse interstellar medium is dynamic, and its chemistry and evolution is determined by shock fronts as well as photodissociation. Shocks are implied by the supersonic motions and velocity dispersion often statistically called turbulence. We compare models of magnetohydrodynamic (MHD) shocks, with speeds typical of cloud motions through the ISM (3-25 km/s) and densities typical of cold neutral gas (~ 100 cm-3), to archival observations of the atomic hydrogen 21-cm line for gas kinematics, far-infrared emission for dust mass, and mid-infrared emission for high-resolution morphology, to identify shock fronts in three high-latitude clouds pairs with masses of order 50 suns. The clouds have `heads with extended `tails, and high-resolution images show arcs on the leading edges of the heads that could be individual shocks. The HI shows higher-velocity gas at the leading edges due to shock-accelerated material. For two cloud pairs, one cloud has an active shock indicated by broad and offset HI, while the other cloud has already been shocked and is predominantly `CO-dark molecular hydrogen. Two-dimensional MHD simulations for shocks parallel to the magnetic field for pairs of clouds show a remarkable similarity to observed cloud features, including merged tails due to aligned flow and magnetic field, which leads to lateral confinement downstream. A parallel alignment between magnetic field and gas flow may lead to formation of small molecular clouds.



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