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Main Authors: Liu, Dejian, Xu, Ye, Li, YingJie, Lin, Zehao, Hao, Chaojie, Yang, WenJin, Li, Jingjing, Liu, Xinrong, Dong, Yiwei, Bian, Shuaibo, Kong, and Deyun
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2401.17525
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author Liu, Dejian
Xu, Ye
Li, YingJie
Lin, Zehao
Hao, Chaojie
Yang, WenJin
Li, Jingjing
Liu, Xinrong
Dong, Yiwei
Bian, Shuaibo
Kong, and Deyun
author_facet Liu, Dejian
Xu, Ye
Li, YingJie
Lin, Zehao
Hao, Chaojie
Yang, WenJin
Li, Jingjing
Liu, Xinrong
Dong, Yiwei
Bian, Shuaibo
Kong, and Deyun
contents We identify a molecular bubble, and study the star formation and its feedback in the S Mon region, using multiple molecular lines, young stellar objects (YSOs), and infrared data. We revisit the distance to S Mon, ~722+/-9 pc, using Gaia Data Release 3 parallaxes of the associated Class II YSOs. The bubble may be mainly driven by a massive binary system (namely 15 Mon), the primary of which is an O7V-type star. An outflow is detected in the shell of the bubble, suggesting ongoing star formation activities in the vicinity of the bubble. The total wind energy of the massive binary star is three orders of magnitude higher than the sum of the observed turbulent energy in the molecular gas and the kinetic energy of the bubble, indicating that stellar winds help to maintain the turbulence in the S Mon region and drive the bubble. We conclude that the stellar winds of massive stars have an impact on their surrounding environment.
format Preprint
id arxiv_https___arxiv_org_abs_2401_17525
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Molecular Bubble and Outflow in S Mon Revealed by Multiband Datasets
Liu, Dejian
Xu, Ye
Li, YingJie
Lin, Zehao
Hao, Chaojie
Yang, WenJin
Li, Jingjing
Liu, Xinrong
Dong, Yiwei
Bian, Shuaibo
Kong, and Deyun
Astrophysics of Galaxies
We identify a molecular bubble, and study the star formation and its feedback in the S Mon region, using multiple molecular lines, young stellar objects (YSOs), and infrared data. We revisit the distance to S Mon, ~722+/-9 pc, using Gaia Data Release 3 parallaxes of the associated Class II YSOs. The bubble may be mainly driven by a massive binary system (namely 15 Mon), the primary of which is an O7V-type star. An outflow is detected in the shell of the bubble, suggesting ongoing star formation activities in the vicinity of the bubble. The total wind energy of the massive binary star is three orders of magnitude higher than the sum of the observed turbulent energy in the molecular gas and the kinetic energy of the bubble, indicating that stellar winds help to maintain the turbulence in the S Mon region and drive the bubble. We conclude that the stellar winds of massive stars have an impact on their surrounding environment.
title Molecular Bubble and Outflow in S Mon Revealed by Multiband Datasets
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2401.17525