Optical emission from high velocity clouds and the ionization sources in the Galactic halo
Abstract
Optical emission lines have now been detected from about 20 high velocity clouds. These emission lines -- primarily H-alpha, secondarily [N II] and [S II] -- are very faint and diffuse, spread over the surfaces of the clouds. We compile emission line measurements and present a model in which the H-alpha is recombination caused by photoionizing radiation escaping the Milky Way. In such a model, we infer HVC distances of 5--30 kpc. The photoionization model fails to explain the relatively strong H-alpha emission from the Magellanic Stream, and the O VI absorption seen by FUSE in HVCs and the MS, which require a second source of ionization (likely collisional). Regardless of mechanism, the fact that HVCs are detectable in H-alpha indicates they are not far away enough to be Local Group objects. Adopting the HVC distances from the model, there appear to be two classes of HVCs: H-alpha-bright clouds with low velocity deviations from Galactic rotation, and often strong [N II], which are presumably affiliated with the Galactic disk; and H-alpha-faint clouds with high velocity deviations, which are likely to be infalling gas.
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