N. Hanaoka scite author profile

We present new large field observations of molecular clouds with NANTEN2 toward the super star cluster NGC3603 in the transitions 12 CO(J=2-1, J=1-0) and 13 CO(J=2-1, J=1-0). We suggest that two molecular clouds at 13 km s −1 and 28 km s −1 are associated with NGC3603 as evidenced by higher temperatures toward the H II region as well as morphological correspondence. The mass of the clouds is too small to gravitationally bind them, given their relative motion of ∼20 km s −1 . We suggest that the two clouds collided with each other a Myr ago to trigger the formation of the super star cluster. This scenario is able to explain the origin of the highest mass stellar population in the cluster which is as young as a Myr and is segregated within the central sub-pc of the cluster. This is the second super star cluster along side Westerlund2 where formation may have been triggered by a cloud-cloud collision. Subject headings: ISM: clouds -open clusters and associations -individual: (NGC3603)the large turbulence excited by the shock interaction. This is the second case of formation of a super star cluster by triggering in a cloud-cloud collision along side Westerlund2 NANTEN2 is an international collaboration of ten universities, Nagoya University,

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Molecular Clouds in the Trifid Nebula M20: Possible Evidence for a Cloud-Cloud Collision in Triggering the Formation of the First Generation Stars

Torii

Enokiya

Sano

et al. 2011

ApJ

120

131

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A large-scale study of the molecular clouds toward the Trifid nebula, M20, has been made in the J=2-1 and J=1-0 transitions of 12 CO and 13 CO. M20 is ionized predominantly by an O7.5 star HD164492. The study has revealed that there are two molecular components at separate velocities peaked toward the center of M20 and that their temperatures -30-50 K as derived by an LVG analysis -are significantly higher than the 10 K of their surroundings.We identify that the two clouds as the parent clouds of the first generation stars in M20. The mass of each cloud is estimated to be ∼ 10 3 M ⊙ and their separation velocity is ∼ 8 km s −1 over ∼1-2 pc. We find the total mass of stars and molecular gas in M20 is less than ∼ 3.2 × 10 3 M ⊙ , which is too small by an order of magnitude to gravitationally bind the system. We argue that the formation of the first generation stars, including the main ionizing O7.5 s tar, was triggered by the collision between the two clouds in a short time scale of ∼1 Myrs, a second example alongside Westerlund 2, where a super star cluster may have been formed due to cloud-cloud collision triggering. Subject headings: ISM: clouds -Radio lines: ISM -open clusters and associations: individual: M20NANTEN2 is an international collaboration of ten universities, Nagoya University,

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Discovery of Possible Molecular Counterparts to the Infrared Double Helix Nebula in the Galactic Center

Enokiya

Torii

Schultheis

et al. 2013

ApJ

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We have discovered two molecular features at radial velocities of −35 km s −1 and 0 km s −1 toward the infrared Double Helix Nebula (DHN) in the Galactic center with NANTEN2. The two features show good spatial correspondence with the DHN. We have also found two elongated molecular ridges at these two velocities distributed vertically to the Galactic plane over 0.• 8. The two ridges are linked by broad features in velocity and are likely connected physically with each other. The ratio between the 12 CO J = 2-1 and J = 1-0 transitions is 0.8 in the ridges which is larger than the average value 0.5 in the foreground gas, suggesting the two ridges are in the Galactic center. An examination of the K band extinction reveals a good coincidence with the CO 0 km s −1 ridge and is consistent with a distance of 8 ± 2 kpc. We discuss the possibility that the DHN was created by a magnetic phenomenon incorporating torsional Alfvén waves launched from the circum-nuclear disk and present a first estimate of the mass and energy involved in the DHN.

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N. Hanaoka

Molecular Clouds Toward the Super Star Cluster NGC 3603; Possible Evidence for a Cloud-Cloud Collision in Triggering the Cluster Formation

Molecular Clouds in the Trifid Nebula M20: Possible Evidence for a Cloud-Cloud Collision in Triggering the Formation of the First Generation Stars

Discovery of Possible Molecular Counterparts to the Infrared Double Helix Nebula in the Galactic Center

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