# Interaction between Northern Coal Sack in the Cyg OB 7 cloud complex and   the multiple super nova remnants including HB 21

**Authors:** Kazuhito Dobashi, Tomomi Shimoikura, Nobuhiro Endo, Chisato Takagi,, Fumitaka Nakamura, Yoshito Shimajiri, Jean-Philippe Bernard

arXiv: 1905.07395 · 2020-01-08

## TL;DR

This study investigates the interaction between multiple supernova remnants and the Northern Coal Sack in the Cyg OB 7 cloud, revealing complex molecular cloud dynamics and potential star formation triggered by supernova-related gas interactions.

## Contribution

It provides new molecular observations showing the physical interactions between SNRs and the NCS, suggesting supernova-driven gas dynamics influence star formation in the region.

## Key findings

- Multiple velocity components indicate complex cloud interactions.
- Small clouds along arcs are likely swept by stellar winds from SNRs.
- Star formation in NCS may be triggered by interactions with small clouds.

## Abstract

We report possible interaction between multiple super nova remnants (SNRs) and Northern Coal Sack (NCS) which is a massive clump (~1000 Mo) in the Cyg OB 7 cloud complex and is forming a massive Class 0 object. We performed molecular observations of the 12CO(J=1-0), 13CO(J=1-0), and C18O(J=1-0) emission lines using the 45m telescope at the Nobeyama Radio Observatory, and we found that there are mainly four velocity components at Vlsr=-20, -6, -4, and 10 km/s. The -6 and -4 km/s components correspond to the systemic velocities of NCS and the Cygnus OB 7 complex, respectively, and the other velocity components originate from distinct smaller clouds. Interestingly, there are apparent correlations and anti-correlations among the spatial distributions of the four components, suggesting that they are physically interacting with one another. On a larger scale, we find that a group of small clouds belonging to the -20 and 10 km/s components are located along two different arcs around some SNRs including HB 21 which has been suggested to be interacting with the Cyg OB 7 cloud complex, and we also find that NCS is located right at the interface of the arcs. The small clouds are likely to be the gas swept up by the stellar wind of the massive stars which created the SNRs. We suggest that the small clouds alined along the two arcs recently encountered NCS and the massive star formation in NCS was triggered by the strong interaction with the small clouds.

## Full text

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## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/1905.07395/full.md

## References

44 references — full list in the complete paper: https://tomesphere.com/paper/1905.07395/full.md

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Source: https://tomesphere.com/paper/1905.07395