# RCW 36 in the Vela Molecular Ridge: Evidence for a high-mass star   cluster formation triggered by Cloud-Cloud Collision

**Authors:** Hidetoshi Sano, Rei Enokiya, Katsuhiro Hayashi, Mitsuyoshi Yamagishi,, Shun Saeki, Kazuki Okawa, Kisetsu Tsuge, Daichi Tsutsumi, Mikito Kohno,, Yusuke Hattori, Satoshi Yoshiike, Shinji Fujita, Atsushi Nishimura, Akio, Ohama, Kengo Tachihara, Kazufumi Torii, Yutaka Hasegawa, Kimihiro Kimura,, Hideo Ogawa, Graeme F. Wong, Catherine Braiding, Gavin Rowell, Michael G., Burton, Yasuo Fukui

arXiv: 1706.05763 · 2018-03-14

## TL;DR

This study provides evidence that a high-mass star cluster in RCW 36 was formed through a cloud-cloud collision, supported by molecular line observations, spatial correlations, and velocity analyses.

## Contribution

It presents new CO observations revealing two colliding molecular clouds associated with RCW 36, supporting the cloud-cloud collision model for high-mass star formation.

## Key findings

- Two molecular clouds at different velocities are associated with RCW 36.
- The clouds show signs of heating from O-type stars, indicating interaction.
- The collision timescale is estimated to be around 10^5 years.

## Abstract

A collision between two molecular clouds is one possible candidate for high-mass star formation. The HII region RCW 36, located in the Vela molecular ridge, contains a young star cluster with two O-type stars. We present new CO observations of RCW 36 with NANTEN2, Mopra, and ASTE using $^{12}$CO($J$ = 1-0, 2-1, 3-2) and $^{13}$CO($J$ = 2-1) line emissions. We have discovered two molecular clouds lying at the velocities $V_\mathrm{LSR} \sim$5.5 and 9 km s$^{-1}$. Both clouds are likely to be physically associated with the star cluster, as verified by the good spatial correspondence among the two clouds, infrared filaments, and the star cluster. We also found a high intensity ratio of $\sim$0.6-1.2 for CO $J$ = 3-2 / 1-0 toward both clouds, indicating that the gas temperature has been increased due to heating by the O-type stars. We propose that the O-type stars in RCW 36 were formed by a collision between the two clouds, with a relative velocity separation of 5 km s$^{-1}$. The complementary spatial distributions and the velocity separation of the two clouds are in good agreement with observational signatures expected for O-type star formation triggered by a cloud-cloud collision. We also found a displacement between the complementary spatial distributions of the two clouds, which we estimate to be 0.3 pc assuming the collision angle to be 45$^{\circ}$ relative to the line-of-sight. We estimate the collision timescale to be $\sim$10$^5$ yr. It is probable that the cluster age by Ellerbroek et al. (2013b) is dominated by the low-mass members which were not formed under the triggering by cloud-cloud collision, and that the O-type stars in the center of the cluster are explained by the collisional triggering independently from the low-mass star formation.

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Source: https://tomesphere.com/paper/1706.05763