期刊
ASTROPHYSICAL JOURNAL
卷 643, 期 2, 页码 932-944出版社
UNIV CHICAGO PRESS
DOI: 10.1086/502957
关键词
dust, extinction; HII regions; infrared : ISM; ISM : individual (G159.6-18.5); radio lines : ISM
The Perseus molecular cloud complex is a greater than or similar to 30 pc long chain of molecular clouds most well known for the two star-forming clusters NGC 1333 and IC 348 and the well-studied outflow source in B5. However, when studied at mid- to far-infrared wavelengths, the region is dominated by a similar to 10 pc diameter shell of warm dust, likely generated by an H II region caused by the early-B star HD 278942. Using a revised calibration technique the COMPLETE team has produced high-sensitivity temperature and column density maps of the Perseus region from IRAS Sky Survey Atlas (ISSA) 60 and 100 mu m data. In this paper, we combine the ISSA-based dust-emission maps with other observations collected as part of the COMPLETE Survey, along with archival H alpha and MSX observations. Molecular line observations from FCRAO and extinction maps constructed by applying the NICER method to the 2MASS catalog provide independent estimates of the true column density of the shell. H alpha emission in the region of the shell confirms that it is most likely an H II region located behind the cloud complex, and 8 mu m data from MSX indicate that the shell may be interacting with the cloud. Finally, the two polarization components seen toward background stars in the region by Goodman et al. can be explained by the association of the stronger component with the shell. If confirmed, this would be the first observation of a parsec-scale swept-up magnetic field.
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