ALMA-QUARKS 勘测:揭示维拉 D 云中等质量原星团区光纤在恒星形成中的作用

Dongting Yang, Hong-Li Liu, Tie Liu, Anandmayee Tej, Xunchuan Liu, Jinhua He, Guido Garay, Amelia Stutz, Lei Zhu, Sheng-Li Qin, Fengwei Xu, Pak-Shing Li, Mika Juvela, Pablo García, Paul F. Goldsmith, Siju Zhang, Xindi Tang, Patricio Sanhueza, Shanghuo Li, Chang Won Lee, Swagat Ranjan Das, Wenyu Jiao, Xiaofeng Mai, Prasanta Gorai, Yichen Zhang, Zhiyuan Ren, L. Viktor Tóth, Jihye Hwang, Leonardo Bronfman, Ken’ichi Tatematsu, Lokesh Dewangan, James O. Chibueze, Suinan Zhang, Gang Wu and Jinjin Xie
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摘要

在本文中,我们利用ATOMS 3 mm和QUARKS 1.3 mm巡天的ALMA数据,对中质量原星团IRAS 08448-4343(103L⊙∼)内的IRS 17细丝进行了详细分析。IRS 17灯丝的长度为54,000au(0.26 pc),宽度为4000au(0.02 pc),呈现出复杂的多成分速度场,并蕴藏着层次分明的子结构。这些子结构包括三束七条速度相干纤维和 29 个致密(n ∼ 108 cm-3)凝聚体。纤维的中位长度为 4500 au,中位宽度为 1400 au。在这些纤维中,有四条被确定为 "肥沃 "纤维,每条纤维至少有三个致密凝聚体,它们被视为恒星形成的 "种子"。根据 3 毫米尘埃连续图,在 IRS 17 长丝中探测到的核心是随机间隔的,而根据 1.3 毫米尘埃图,在肥沃纤维中则观测到了周期性间隔(∼1600 au)的凝聚体,这与线性等温圆柱体碎裂模型的预测一致。这些发现强调了纤维在恒星形成过程中的关键作用,并提出了一个从长丝到纤维,最终到最小尺度凝聚体的分级破碎过程。
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The ALMA-QUARKS Survey: Fibers’ Role in Star Formation Unveiled in an Intermediate-mass Protocluster Region of the Vela D Cloud
In this paper, we present a detailed analysis of the IRS 17 filament within the intermediate-mass protocluster IRAS 08448-4343 (of ∼103L⊙), using ALMA data from the ATOMS 3 mm and QUARKS 1.3 mm surveys. The IRS 17 filament, which spans ∼54,000 au (0.26 pc) in length and ∼4000 au (0.02 pc) in width, exhibits a complex, multicomponent velocity field and harbors hierarchical substructures. These substructures include three bundles of seven velocity-coherent fibers and 29 dense (n ∼ 108 cm−3) condensations. The fibers have a median length of ∼4500 au and a median width of ∼1400 au. Among these fibers, four are identified as “fertile,” each hosting at least three dense condensations, which are regarded as the “seeds” of star formation. While the detected cores are randomly spaced within the IRS 17 filament based on the 3 mm dust continuum image, periodic spacing (∼1600 au) of condensations is observed in the fertile fibers according to the 1.3 mm dust map, consistent with the predictions of linear isothermal cylinder fragmentation models. These findings underscore the crucial role of fibers in star formation and suggest a hierarchical fragmentation process that extends from the filament to the fibers and, ultimately, to the smallest-scale condensations.
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