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ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP) II. Survey overview: a first look at 1.3 mm continuum maps and molecular outflows

Authors :
Dutta, Somnath
Lee, Chin-Fei
Liu, Tie
Hirano, Naomi
Liu, Sheng-Yuan
Tatematsu, Kenichi
Kim, Kee-Tae
Shang, Hsien
Sahu, Dipen
Kim, Gwanjeong
Moraghan, Anthony
Jhan, Kai-Syun
Hsu, Shih-Ying
Evans, Neal J.
Johnstone, Doug
Ward-Thompson, Derek
Kuan, Yi-Jehng
Lee, Chang Won
Lee, Jeong-Eun
Traficante, Alessio
Juvela, Mika
Vastel, Charlotte
Zhang, Qizhou
Sanhueza, Patricio
Soam, Archana
Kwon, Woojin
Bronfman, Leonardo
Eden, David
Goldsmith, Paul F.
He, Jinhua
Wu, Yuefang
Pelkonen, Veli-Matti
Qin, Sheng-Li
Li, Shanghuo
Li, Di
Publication Year :
2020

Abstract

Planck Galactic Cold Clumps (PGCCs) are contemplated to be the ideal targets to probe the early phases of star formation. We have conducted a survey of 72 young dense cores inside PGCCs in the Orion complex with the Atacama Large Millimeter/submillimeter Array (ALMA) at 1.3\,mm (band 6) using three different configurations (resolutions $\sim$ 0$\farcs$35, 1$\farcs$0, and 7$\farcs$0) to statistically investigate their evolutionary stages and sub-structures. We have obtained images of the 1.3\,mm continuum and molecular line emission ($^{12}$CO, and SiO) at an angular resolution of $\sim$ 0$\farcs$35 ($\sim$ 140\,au) with the combined arrays. We find 70 substructures within 48 detected dense cores with median dust-mass $\sim$ 0.093\,M$_{\sun}$ and deconvolved size $\sim$ 0$\farcs$27. Dense substructures are clearly detected within the central 1000\,au of four candidate prestellar cores. The sizes and masses of the substructures in continuum emission are found to be significantly reduced with protostellar evolution from Class\,0 to Class\,I. We also study the evolutionary change in the outflow characteristics through the course of protostellar mass accretion. A total of 37 sources exhibit CO outflows, and 20 ($>$50\%) show high-velocity jets in SiO. The CO velocity-extents ($\Delta$Vs) span from 4 to 110 km/s with outflow cavity opening angle width at 400\,au ranging from $[\Theta_{obs}]_{400}$ $\sim$ 0$\farcs$6 to 3$\farcs$9, which corresponds to 33$\fdg$4$-$125$\fdg$7. For the majority of the outflow sources, the $\Delta$Vs show a positive correlation with $[\Theta_{obs}]_{400}$, suggesting that as protostars undergo gravitational collapse, the cavity opening of a protostellar outflow widens and the protostars possibly generate more energetic outflows.<br />Comment: 43 pages, 25 figures (14 in the main text, 9 in the appendix), accepted for publication in the Astrophysical Journal Supplement Series (ApJS)

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2010.14507
Document Type :
Working Paper
Full Text :
https://doi.org/10.3847/1538-4365/abba26