A misaligned protostellar disk fed by gas streamers in a barred spiral-like massive dense core
Xiaofeng Mai, Tie Liu, Xunchuan Liu, Bo Zhang, Paul F. Goldsmith, Neal J. Evans II, Qizhou Zhang, Kee-Tae Kim, Dongting Yang, Mika Juvela, Fengwei Xu, Wenyu Jiao, Hongli Liu, Patricio Sanhueza, Guido Garay, Xi Chen, Shengli Qin, Jakobus M. Vorster, Anandmayee Tej, Zhiyuan Ren, Sami Dib, Shanghuo Li, Qiuyi Luo, Jihye Hwang, Prasanta Gorai, Ariful Hoque, Yichen Zhang, Jeong-Eun Lee, Siju Zhang, Emma Mannfors, Devika Tharakkal, Lokesh Dewangan, Leonardo Bronfman, Pablo Garcia, Xindi Tang, Swagat R. Das, Gang Wu, Chang-Won Lee, James O. Chibueze, Yankun Zhang, Qilao Gu, Kenichi Tatematsu, Guangli Wang, Lei Zhu, Zhiqiang Shen
Published: 2025/9/19
Abstract
High-mass stars, born in massive dense cores (MDCs), profoundly impact the cosmic ecosystem through feedback processes and metal enrichment, yet little is known about how MDCs assemble and transfer mass across scales to form high-mass young stellar objects (HMYSOs). Using multi-scale (40-2500 au) observations of an MDC hosting an HMYSO, we identify a coherent dynamical structure analogous to barred spiral galaxies: three 20,000 au spiral arms feed a 7,500 au central bar, which channels gas to a 2,000 au pseudodisk. Further accretion proceeds through the inner structures, including a Keplerian disk and an inner disk (100 au), which are thought to be driving a collimated bipolar outflow. This is the first time that these multi-scale structures (spiral arms, bar, streamers, envelope, disk, and outflow) have been simultaneously observed as a physically coherent structure within an MDC. Our discovery suggests that well-organized hierarchical structures play a crucial role during the gas accretion and angular momentum build-up of a massive disk.