ATOMS: ALMA three-millimeter observations of massive star-forming regions – XIX. The origin of SiO emission

The production of silicon monoxide (SiO) can be considered as a fingerprint of shock interaction. In this work, we use high-sensitivity observations of the SiO (2–1) and H$^{13}$CO$^{+}$ (1–0) emission to investigate the broad and narrow SiO emission towards 146 massive star-forming regions in the A...

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Published in:Monthly notices of the Royal Astronomical Society 2024-12, Vol.536 (2), p.1894-1920
Main Authors: Liu, Rong, Liu, Tie, Jiménez-Serra, Izaskun, Li, Jin-Zeng, Martín-Pintado, Jesús, Liu, Xunchuan, Lee, Chang Won, Sanhueza, Patricio, Chibueze, James O, Rivilla, Víctor M, Juvela, Mika, Colzi, Laura, Bronfman, Leonardo, Liu, Hong-Li, Sanz-Novo, Miguel, López-Gallifa, Álvaro, Li, Shanghuo, Megías, Andrés, San Andrés, David, Garay, Guido, Hwang, Jihye, Zhou, Jianwen, Xu, Fengwei, Martínez-Henares, Antonio, Saha, Anindya, Nazeer, Hafiz
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container_end_page 1920
container_issue 2
container_start_page 1894
container_title Monthly notices of the Royal Astronomical Society
container_volume 536
creator Liu, Rong
Liu, Tie
Jiménez-Serra, Izaskun
Li, Jin-Zeng
Martín-Pintado, Jesús
Liu, Xunchuan
Lee, Chang Won
Sanhueza, Patricio
Chibueze, James O
Rivilla, Víctor M
Juvela, Mika
Colzi, Laura
Bronfman, Leonardo
Liu, Hong-Li
Sanz-Novo, Miguel
López-Gallifa, Álvaro
Li, Shanghuo
Megías, Andrés
San Andrés, David
Garay, Guido
Hwang, Jihye
Zhou, Jianwen
Xu, Fengwei
Martínez-Henares, Antonio
Saha, Anindya
Nazeer, Hafiz
description The production of silicon monoxide (SiO) can be considered as a fingerprint of shock interaction. In this work, we use high-sensitivity observations of the SiO (2–1) and H$^{13}$CO$^{+}$ (1–0) emission to investigate the broad and narrow SiO emission towards 146 massive star-forming regions in the ATOMS (ALMA Three-millimeter Observations of Massive Star-forming regions) survey. We detected SiO emission in 136 regions and distinguished broad and narrow components across the extension of 118 sources (including 58 UC H ii regions) with an average angular resolution of 2.5 arcsec. The derived SiO luminosity ($L_{\rm SiO}$) across the whole sample shows that the majority of $L_{\rm SiO}$ (above 66 per cent) can be attributed to broad SiO, indicating its association with strong outflows. The comparison of the ALMA SiO images with the filamentary skeletons identified from H$^{13}$CO$^{+}$ and in the infrared data (at 4.5, 8, and 24 μm), further confirms that most SiO emission originates from outflows. However, note that for nine sources in our sample, the observed SiO emission may be generated by expanding UC H ii regions. There is a moderate positive correlation between the bolometric luminosity ($L_{\rm bol}$) and $L_{\rm SiO}$ for both components (narrow and broad). The UC H ii sources show a weaker positive correlation between $L_{\rm bol}$ and $L_{\rm SiO}$ and higher $L_{\rm SiO}$ compared to the sources without UC H ii regions. These results imply that the SiO emission from UC H ii sources might be affected by UV-photochemistry induced by UC H ii regions.
doi_str_mv 10.1093/mnras/stae2673
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The origin of SiO emission</title><source>Oxford University Press Open Access</source><source>EZB Electronic Journals Library</source><creator>Liu, Rong ; Liu, Tie ; Jiménez-Serra, Izaskun ; Li, Jin-Zeng ; Martín-Pintado, Jesús ; Liu, Xunchuan ; Lee, Chang Won ; Sanhueza, Patricio ; Chibueze, James O ; Rivilla, Víctor M ; Juvela, Mika ; Colzi, Laura ; Bronfman, Leonardo ; Liu, Hong-Li ; Sanz-Novo, Miguel ; López-Gallifa, Álvaro ; Li, Shanghuo ; Megías, Andrés ; San Andrés, David ; Garay, Guido ; Hwang, Jihye ; Zhou, Jianwen ; Xu, Fengwei ; Martínez-Henares, Antonio ; Saha, Anindya ; Nazeer, Hafiz</creator><creatorcontrib>Liu, Rong ; Liu, Tie ; Jiménez-Serra, Izaskun ; Li, Jin-Zeng ; Martín-Pintado, Jesús ; Liu, Xunchuan ; Lee, Chang Won ; Sanhueza, Patricio ; Chibueze, James O ; Rivilla, Víctor M ; Juvela, Mika ; Colzi, Laura ; Bronfman, Leonardo ; Liu, Hong-Li ; Sanz-Novo, Miguel ; López-Gallifa, Álvaro ; Li, Shanghuo ; Megías, Andrés ; San Andrés, David ; Garay, Guido ; Hwang, Jihye ; Zhou, Jianwen ; Xu, Fengwei ; Martínez-Henares, Antonio ; Saha, Anindya ; Nazeer, Hafiz</creatorcontrib><description>The production of silicon monoxide (SiO) can be considered as a fingerprint of shock interaction. 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The comparison of the ALMA SiO images with the filamentary skeletons identified from H$^{13}$CO$^{+}$ and in the infrared data (at 4.5, 8, and 24 μm), further confirms that most SiO emission originates from outflows. However, note that for nine sources in our sample, the observed SiO emission may be generated by expanding UC H ii regions. There is a moderate positive correlation between the bolometric luminosity ($L_{\rm bol}$) and $L_{\rm SiO}$ for both components (narrow and broad). The UC H ii sources show a weaker positive correlation between $L_{\rm bol}$ and $L_{\rm SiO}$ and higher $L_{\rm SiO}$ compared to the sources without UC H ii regions. 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title ATOMS: ALMA three-millimeter observations of massive star-forming regions – XIX. The origin of SiO emission
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