# Molecular Environments of Three Large Supernova Remnants in the Third   Galactic Quadrant: G205.5+0.5, G206.9+2.3, and G213.0-0.6

**Authors:** Yang Su, Xin Zhou, Ji Yang, Xuepeng Chen, Yang Chen, Yi Liu, Hongchi, Wang, Chong Li, and Shaobo Zhang

arXiv: 1702.04049 · 2017-03-08

## TL;DR

This study uses CO observations to analyze the molecular environments of three large supernova remnants in the third Galactic quadrant, revealing interactions with molecular clouds and their evolutionary states.

## Contribution

It provides new high-resolution CO data confirming physical associations between SNRs and molecular clouds, and discusses their environmental interactions and evolution.

## Key findings

- G205.5+0.5 and G213.0-0.6 show morphological and kinematic evidence of shock interaction.
- G206.9+2.3 is likely evolving in a low-density environment with a molecular cavity.
- All three SNRs are physically associated with nearby molecular gas.

## Abstract

We present CO observations toward three large supernova remnants (SNRs) in the third Galactic quadrant using the Purple Mountain Observatory Delingha 13.7m radio telescope. The observations are part of the high-resolution CO survey of the Galactic plane between Galactic longitudes l=-10deg to 250deg and latitudes b=-5deg to 5d. CO emission was detected toward the three SNRs: G205.5+0.5 (Monoceros Nebula), G206.9+2.3 (PKS 0646+06), and G213.0-0.6. Both of SNRs G205.5+0.5 and G213.0-0.6 exhibit the morphological agreement (or spatial correspondences) between the remnant and the surrounding molecular clouds (MCs), as well as kinematic signatures of shock perturbation in the molecular gas. We confirm that the two SNRs are physically associated with their ambient MCs and the shock of SNRs is interacting with the dense, clumpy molecular gas. SNR G206.9+2.3, which is close to the northeastern edge of the Monoceros Nebula, displays the spatial coincidence with molecular partial shell structures at VLSR~15km/s. While no significant line broadening has been detected within or near the remnant, the strong morphological correspondence between the SNR and the molecular cavity implies that SNR G206.9+2.3 is probably associated with these CO gas and is evolving in the low-density environment. The physical features of individual SNRs, together with the relationship between SNRs and their nearby objects, are also discussed.

## Full text

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## Figures

20 figures with captions in the complete paper: https://tomesphere.com/paper/1702.04049/full.md

## References

65 references — full list in the complete paper: https://tomesphere.com/paper/1702.04049/full.md

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Source: https://tomesphere.com/paper/1702.04049