The JCMT Transient Survey: Four Year Summary of Monitoring the Submillimeter Variability of Protostars

We present the four-year survey results of monthly submillimeter monitoring of eight nearby (\(< 500 \)pc) star-forming regions by the JCMT Transient Survey. We apply the Lomb-Scargle Periodogram technique to search for and characterize variability on 295 submillimeter peaks brighter than 0.14 Jy...

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Veröffentlicht in:arXiv.org 2021-07
Hauptverfasser: Yong-Hee, Lee, Johnstone, Doug, Jeong-Eun, Lee, Herczeg, Gregory, Mairs, Steve, Contreras-Peña, Carlos, Hatchell, Jennifer, Naylor, Tim, Bell, Graham S, Bourke, Tyler L, Broughton, Colton, Logan, Francis, Gupta, Aashish, Harsono, Daniel, Sheng-Yuan, Liu, Park, Geumsook, Spencer Plovie, Moriarty-Schieven, Gerald H, Scholz, Aleks, Sharma, Tanvi, Teixeira, Paula Stella, Yao-Te, Wang, Aikawa, Yuri, Bower, Geoffrey C, Chen, Huei-Ru Vivien, Bae, Jaehan, Baek, Giseon, Chapman, Scott, Chen, Wen Ping, Du, Fujun, Dutta, Somnath, brich, Jan, Guo, Zhen, Shu-ichiro Inutsuka, Kang, Miju, Kirk, Helen, Yi-Jehng Kuan, Kwon, Woojin, Shih-Ping, Lai, Lalchand, Bhavana, Lane, James M M, Chin-Fei, Lee, Liu, Tie, Morata, Oscar, Pearson, Samuel, Pon, Andy, Sahu, Dipen, Shang, Hsien, Stamatellos, Dimitris, Shih-Yun, Tang, Xu, Ziyan, Yoo, Hyunju
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Sprache:eng
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Zusammenfassung:We present the four-year survey results of monthly submillimeter monitoring of eight nearby (\(< 500 \)pc) star-forming regions by the JCMT Transient Survey. We apply the Lomb-Scargle Periodogram technique to search for and characterize variability on 295 submillimeter peaks brighter than 0.14 Jy beam\(^{-1}\), including 22 disk sources (Class II), 83 protostars (Class 0/I), and 190 starless sources. We uncover 18 secular variables, all of them protostars. No single-epoch burst or drop events and no inherently stochastic sources are observed. We classify the secular variables by their timescales into three groups: Periodic, Curved, and Linear. For the Curved and Periodic cases, the detectable fractional amplitude, with respect to mean peak brightness, is \(\sim4\) % for sources brighter than \(\sim\) 0.5 Jy beam\(^{-1}\). Limiting our sample to only these bright sources, the observed variable fraction is 37 % (16 out of 43). Considering source evolution, we find a similar fraction of bright variables for both Class 0 and Class I. Using an empirically motivated conversion from submillimeter variability to variation in mass accretion rate, six sources (7 % of our full sample) are predicted to have years-long accretion events during which the excess mass accreted reaches more than 40 % above the total quiescently accreted mass: two previously known eruptive Class I sources, V1647 Ori and EC 53 (V371 Ser), and four Class 0 sources, HOPS 356, HOPS 373, HOPS 383, and West 40. Considering the full protostellar ensemble, the importance of episodic accretion on few years timescale is negligible, only a few percent of the assembled mass. However, given that this accretion is dominated by events of order the observing time-window, it remains uncertain as to whether the importance of episodic events will continue to rise with decades-long monitoring.
ISSN:2331-8422
DOI:10.48550/arxiv.2107.10750