Abstract
Infrared dark clouds (IRDCs) are cold, dense molecular clouds identified as extinction features against the bright mid-infrared Galactic background. Our recent 1.2 mm continuum emission survey of IRDCs reveals many compact (<0.5 pc) and massive (10–2100 M⊙) cores within them. These prestellar cores hold the key to understanding IRDCs and their role in star formation. Here, we present high angular resolution spectral-line and mm/sub-mm continuum images obtained with the IRAM Plateau de Bure Interferometer and the Sub-Millimeter Array towards three high-mass IRDC cores. The high angular resolution images reveal that two of the cores are resolved into multiple, compact protostellar condensations, while the remaining core contains a single, compact protostellar condensation with a very rich molecular spectrum, indicating that it is a hot molecular core. The derived gas masses for these condensations suggest that each core is forming at least one high-mass protostar, while two of the cores are also forming lower-mass protostars. The close proximity of multiple protostars of disparate mass indicates that these IRDCs are in the earliest evolutionary states in the formation of stellar clusters.
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Rathborne, J.M., Jackson, J.M., Simon, R. et al. Infrared dark clouds as precursors to star clusters. Astrophys Space Sci 324, 155–162 (2009). https://doi.org/10.1007/s10509-009-0121-8
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DOI: https://doi.org/10.1007/s10509-009-0121-8
Keywords
- Dust, extinction
- Stars: formation
- ISM: clouds
- Infrared: ISM
- Radio lines: ISM