Dust in High-Velocity Clouds : relevance for Planck
Abstract
The recent detection of dust emission in Complex C, the largest High-Velocity Cloud (HVC) on the sky, opens a very interesting perspective for Planck. The HVC dust temperature determined using IRAS and Spitzer observations is low (T~10.7 K) in accordance with its great distance from the Galaxy (> 5 kpc). Peak column density in 30 arcmin beam is NH ~1020 cm-2 which is typical of HVCs and similar to cirrus column density in diffuse regions. On the other hand HVCs appear to be very clumpy at smaller angular scales; several observations at the arcminute scale resolution show significant structure and higher brightness contrasts than in typical cirrus emission. In this contribution we show that, even with their moderate column density, the cold temperature, high emissivity and high column density contrast of HVCs should lead to significant and detectable emission in the Planck-HFI frequency range. In order to separate the HVC emission from the Galactic cirrus emission, the use of 21 cm observations will be mandatory.
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