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Protoplanetary Disks in the Orion Nebula Cluster: Gas-disk Morphologies and Kinematics as Seen with ALMA
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Boyden_2020_ApJ_894_74.pdf
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Final Published Version
Affiliation
Univ Arizona, Steward ObservIssue Date
2020-05-07Keywords
Protoplanetary disksCircumstellar disks
Proplyds
Circumstellar gas
Young star clusters
Young stellar objects
Pre-main sequence stars
Planet formation
Radio astronomy
Millimeter astronomy
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IOP PUBLISHING LTDCitation
Boyden, R. D., & Eisner, J. A. (2020). Protoplanetary Disks in the Orion Nebula Cluster: Gas-disk Morphologies and Kinematics as Seen with ALMA. The Astrophysical Journal, 894(1), 74.Journal
ASTROPHYSICAL JOURNALRights
© 2020. The American Astronomical Society. All rights reserved.Collection Information
This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at repository@u.library.arizona.edu.Abstract
We present Atacama Large Millimeter Array CO(3 - 2) and HCO+(4 - 3) observations covering the central 15 x 15 region of the Orion Nebula Cluster (ONC). The unprecedented level of sensitivity (similar to 0.1 mJy beam(-1)) and angular resolution (similar to 009 40 au) of these line observations enable us to search for gas-disk detections toward the known positions of submillimeter-detected dust disks in this region. We detect 23 disks in gas: 17 in CO(3 - 2), 17 in HCO+(4 - 3), and 11 in both lines. Depending on where the sources are located in the ONC, we see the line detections in emission, in absorption against the warm background, or in both emission and absorption. We spectrally resolve the gas with 0.5 km s(-1) channels and find that the kinematics of most sources are consistent with Keplerian rotation. We measure the distribution of gas-disk sizes and find typical radii of similar to 50-200 au. As such, gas disks in the ONC are compact in comparison with the gas disks seen in low-density star-forming regions. Gas sizes are universally larger than the dust sizes. However, the gas and dust sizes are not strongly correlated. We find a positive correlation between gas size and distance from the massive star (1) Ori C, indicating that disks in the ONC are influenced by photoionization. Finally, we use the observed kinematics of the detected gas lines to model Keplerian rotation and infer the masses of the central pre-main-sequence stars. Our dynamically derived stellar masses are not consistent with the spectroscopically derived masses, and we discuss possible reasons for this discrepancy.ISSN
0004-637XEISSN
1538-4357Version
Final published versionSponsors
NSFae974a485f413a2113503eed53cd6c53
10.3847/1538-4357/ab86b7