4.7 Article

Infrared dark cloud cores in the SCUBA Legacy Catalogue

Journal

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 399, Issue 3, Pages 1506-1522

Publisher

WILEY-BLACKWELL PUBLISHING, INC
DOI: 10.1111/j.1365-2966.2009.15375.x

Keywords

stars: formation; dust; extinction; infrared: ISM; submillimetre

Funding

  1. STFC
  2. University of Hertfordshire
  3. Canadian Space Agency
  4. STFC [PP/D000920/1, ST/F007280/1] Funding Source: UKRI
  5. Science and Technology Facilities Council [ST/F007280/1, PP/D000920/1] Funding Source: researchfish

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We present an investigation of candidate infrared dark cloud (IRDC) cores as identified by Simon et al. located within the Submillimetre Common User Bolometer Array (SCUBA) Legacy Catalogue. After applying a uniform noise cut to the catalogue data, we identify 154 IRDC cores that were detected at 850 mu m and 51 cores that were not. We derive column densities for each core from their 8 mu m extinction and find that the IRDCs detected at 850 mu m have higher column densities (a mean of 1.7 x 1022 cm-2) compared to those cores not detected at 850 mu m (a mean of 1.0 x 1022 cm-2). Combined with sensitivity estimates, we suggest that the cores not detected at 850 mu m are low-mass, low-column-density and low-temperature cores that are below the sensitivity limit of SCUBA at 850 mu m. For a subsample of the cores detected at 850 mu m [those contained within the Multiband Imaging Photometer for Spitzer Galactic Plane Survey (MIPSGAL) area], we find that two-thirds are associated with 24 mu m sources. Cores not associated with 24 mu m emission are either 'starless' IRDC cores that perhaps have yet to form stars, or contain low-mass young stellar objects below the MIPSGAL detection limit. We see that those 'starless' IRDC cores and the IRDC cores associated with 24 mu m emission are drawn from the same column density population and are of similar mass. If we then assume the cores without 24 mu m embedded sources are at an earlier evolutionary stage to cores with embedded objects, we derive a statistical lifetime for the quiescent phase of a few 103-104 yr. Finally, we make conservative predictions for the number of observed IRDCs that will be observed by the Apex Telescope Galactic Plane Survey, the Herschel Infrared Galactic Plane Survey, the James Clerk Maxwell Telescope Galactic Plane Survey and the SCUBA-2 'All Sky' Survey (SASSy).

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