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ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Detection of a Dense SiO Jet in the Evolved Protostellar Phase

Cited 6 time in Web of Science Cited 6 time in Scopus
Authors

Dutta, Somnath; Lee, Chin-Fei; Johnstone, Doug; Liu, Tie; Hirano, Naomi; Liu, Sheng-Yuan; Lee, Jeong-Eun; Shang, Hsien; Tatematsu, Ken'ichi; Kim, Kee-Tae; Sahu, Dipen; Sanhueza, Patricio; Di Francesco, James; Jhan, Kai-Syun; Lee, Chang Won; Kwon, Woojin; Li, Shanghuo; Bronfman, Leonardo; Liu, Hong-li; Traficante, Alessio; Kuan, Yi-Jehng; Hsu, Shih-Ying; Moraghan, Anthony; Liu, Chun-Fan; Eden, David; Soam, Archana; Luo, Qiuyi

Issue Date
2022-01-20
Publisher
University of Chicago Press
Citation
Astrophysical Journal, Vol.925 No.1, p. 11
Abstract
Jets and outflows trace the accretion history of protostars. High-velocity molecular jets have been observed from several protostars in the early Class 0 phase of star formation, detected with the high-density tracer SiO. Until now, no clear jet has been detected with SiO emission from isolated evolved Class I protostellar systems. We report a prominent dense SiO jet from a Class I source G205S3 (HOPS-315: T (bol) similar to 180 K, spectral index similar to 0.417), with a moderately high mass-loss rate (similar to 0.59 x 10(-6) M (circle dot) yr(-1)) estimated from CO emission. Together, these features suggest that G205S3 is still in a high-accretion phase, similar to that expected of Class 0 objects. We compare G205S3 to a representative Class 0 system G206W2 (HOPS-399) and literature Class 0/I sources to explore the possible explanations behind the SiO emission seen at the later phase. We estimate a high inclination angle (similar to 40 degrees) for G205S3 from CO emission, which may expose the infrared emission from the central core and mislead the spectral classification. However, the compact 1.3 mm continuum, (CO)-O-18 emission, location in the bolometric luminosity to submillimeter fluxes diagram, outflow force (similar to 3.26 x 10(-5) M (circle dot) km s(-1) yr(-1)) are also analogous to that of Class I systems. We thus consider G205S3 to be at the very early phase of Class I, and in the late phase of high accretion. The episodic ejection could be due to the presence of an unknown binary, a planetary companion, or dense clumps, where the required mass for such high accretion could be supplied by a massive circumbinary disk.
ISSN
0004-637X
URI
https://hdl.handle.net/10371/179580
DOI
https://doi.org/10.3847/1538-4357/ac3424
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