Ionized carbon as a tracer of the assembly of interstellar clouds

Molecular hydrogen clouds are a key component of the interstellar medium because they are the birthplaces for stars. They are embedded in atomic gas that pervades the interstellar space. However, the details of how molecular clouds assemble from and interact with the atomic gas are still largely unk...

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Veröffentlicht in:	Nature astronomy 2023-05, Vol.7 (5), p.546-556
Hauptverfasser:	Schneider, Nicola, Bonne, Lars, Bontemps, Sylvain, Kabanovic, Slawa, Simon, Robert, Ossenkopf-Okada, Volker, Buchbender, Christof, Stutzki, Jürgen, Mertens, Marc, Ricken, Oliver, Csengeri, Timea, Tielens, Alexander G.G.M.
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Schlagworte:	639/33/34/865 639/766/34/865 Astronomy Astrophysics and Cosmology Carbon Observatories Physics Physics and Astronomy Sciences of the Universe
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creator	Schneider, Nicola Bonne, Lars Bontemps, Sylvain Kabanovic, Slawa Simon, Robert Ossenkopf-Okada, Volker Buchbender, Christof Stutzki, Jürgen Mertens, Marc Ricken, Oliver Csengeri, Timea Tielens, Alexander G.G.M.
description	Molecular hydrogen clouds are a key component of the interstellar medium because they are the birthplaces for stars. They are embedded in atomic gas that pervades the interstellar space. However, the details of how molecular clouds assemble from and interact with the atomic gas are still largely unknown. As a result of new observations of the 158 μm line of ionized carbon [CII] in the Cygnus region within the FEEDBACK program on SOFIA (Stratospheric Observatory for Infrared Astronomy), we present compelling evidence that [CII] unveils dynamic interactions between cloud ensembles. This process is neither a head-on collision of fully molecular clouds nor a gentle merging of only atomic clouds. Moreover, we demonstrate that the dense molecular clouds associated with the DR21 and W75N star-forming regions and a cloud at higher velocity are embedded in atomic gas, and all components interact over a large range of velocities (roughly 20 km s −1 ). The atomic gas has a density of around 100 cm −3 and a temperature of roughly 100 K. We conclude that the [CII] 158 μm line is an excellent tracer to witness the processes involved in cloud interactions and anticipate further detections of this phenomenon in other regions. Mapping the 158 μm line of ionized carbon within the Cygnus region with the SOFIA observatory provides evidence for dynamic interactions between molecular clouds and their atomic envelopes, which trace out the assembly process of cloud complexes.
doi_str_mv	10.1038/s41550-023-01901-5
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They are embedded in atomic gas that pervades the interstellar space. However, the details of how molecular clouds assemble from and interact with the atomic gas are still largely unknown. As a result of new observations of the 158 μm line of ionized carbon [CII] in the Cygnus region within the FEEDBACK program on SOFIA (Stratospheric Observatory for Infrared Astronomy), we present compelling evidence that [CII] unveils dynamic interactions between cloud ensembles. This process is neither a head-on collision of fully molecular clouds nor a gentle merging of only atomic clouds. Moreover, we demonstrate that the dense molecular clouds associated with the DR21 and W75N star-forming regions and a cloud at higher velocity are embedded in atomic gas, and all components interact over a large range of velocities (roughly 20 km s −1 ). The atomic gas has a density of around 100 cm −3 and a temperature of roughly 100 K. We conclude that the [CII] 158 μm line is an excellent tracer to witness the processes involved in cloud interactions and anticipate further detections of this phenomenon in other regions. Mapping the 158 μm line of ionized carbon within the Cygnus region with the SOFIA observatory provides evidence for dynamic interactions between molecular clouds and their atomic envelopes, which trace out the assembly process of cloud complexes.</description><identifier>ISSN: 2397-3366</identifier><identifier>EISSN: 2397-3366</identifier><identifier>DOI: 10.1038/s41550-023-01901-5</identifier><language>eng</language><publisher>London: Nature Publishing Group UK</publisher><subject>639/33/34/865 ; 639/766/34/865 ; Astronomy ; Astrophysics and Cosmology ; Carbon ; Observatories ; Physics ; Physics and Astronomy ; Sciences of the Universe</subject><ispartof>Nature astronomy, 2023-05, Vol.7 (5), p.546-556</ispartof><rights>The Author(s) 2023</rights><rights>The Author(s) 2023. 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They are embedded in atomic gas that pervades the interstellar space. However, the details of how molecular clouds assemble from and interact with the atomic gas are still largely unknown. As a result of new observations of the 158 μm line of ionized carbon [CII] in the Cygnus region within the FEEDBACK program on SOFIA (Stratospheric Observatory for Infrared Astronomy), we present compelling evidence that [CII] unveils dynamic interactions between cloud ensembles. This process is neither a head-on collision of fully molecular clouds nor a gentle merging of only atomic clouds. Moreover, we demonstrate that the dense molecular clouds associated with the DR21 and W75N star-forming regions and a cloud at higher velocity are embedded in atomic gas, and all components interact over a large range of velocities (roughly 20 km s −1 ). The atomic gas has a density of around 100 cm −3 and a temperature of roughly 100 K. 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title	Ionized carbon as a tracer of the assembly of interstellar clouds
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