Journal
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 429, Issue 1, Pages L10-L14Publisher
OXFORD UNIV PRESS
DOI: 10.1093/mnrasl/sls015
Keywords
stars: formation; dust, extinction; submillimetre: ISM; stars: protostars
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Funding
- Science and Technology Facilities Council
- Nuffield Foundation through an Undergraduate Research Bursary
- University of Exeter
- National Research Council Canada
- Institute of Physics
- STFC [ST/J004502/1, ST/K002708/1, ST/G004293/1, ST/J00152X/1] Funding Source: UKRI
- Science and Technology Facilities Council [ST/G004293/1, PPA/A/R/2003/00173, ST/K002708/1, ST/J00152X/1, ST/J004502/1] Funding Source: researchfish
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We present observations of NGC 1333 from SCUBA-2 on the James ClerkMaxwell Telescope (JCMT), observed as a JCMT Gould Belt Survey pilot project during the shared risk campaign when the first of four arrays was installed at each of 450 and 850 mu m. Temperature maps are derived from 450 and 850 mu m ratios under the assumption of constant dust opacity spectral index beta = 1.8. Temperatures indicate that the dust in the northern (IRAS 6/8) region of NGC 1333 is hot, 20-40 K, due to heating by the B star SVS3, other young stars in the IR/optically visible cluster and embedded protostars. Other luminous protostars are also identified by temperature rises at the 17 arcsec resolution of the ratio maps (0.02 pc assuming a distance of 250 pc for Perseus). The extensive heating raises the possibility that the radiative feedback may lead to increased masses for the next generation of stars.
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