The Study of a System of H ii Regions toward L = 24 8, B = 0 1 at the Galactic Bar: Norma Arm Interface
To probe the star formation process, we present a thorough multiwavelength investigation of several H ii regions located toward l = 24 8, b = 0 1. A system of at least five H ii regions, including the mid-infrared bubble N36 (hereafter system N36; extension ∼35 pc), is observationally investigated a...
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Published in: | The Astrophysical journal Vol. 866; no. 1; pp. 20 - 36 |
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Main Authors: | , , , |
Format: | Journal Article |
Language: | English |
Published: |
Philadelphia
The American Astronomical Society
10-10-2018
IOP Publishing |
Subjects: | |
Online Access: | Get full text |
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Summary: | To probe the star formation process, we present a thorough multiwavelength investigation of several H ii regions located toward l = 24 8, b = 0 1. A system of at least five H ii regions, including the mid-infrared bubble N36 (hereafter system N36; extension ∼35 pc), is observationally investigated and is located at a distance of 6.0 kpc. With this distance, the system N36 is found to be situated at the interface of the Galactic bar and the Norma Galactic arm in our Galaxy, where one may expect the collisions of molecular clouds due to the bar potential. Each H ii region (dynamical age ∼0.4-1.3 Myr) in the system is powered by an O-type star. The system contains 27 ATLASGAL dust clumps at 870 m. Several clumps are massive (>103 M ) and have high bolometric luminosity (>103 L ). Using the GRS 13CO line data, in the direction of the system N36, two velocity components are found around 109 and 113 km s−1 and are linked in the velocity space. The morphological analysis of 13CO favors the presence of interacting molecular clouds in the system. Four H ii regions and two 6.7 GHz masers are spatially observed at the common areas of the two clouds. The analysis of the Spitzer photometric data also traces the noticeable star formation activity in the system. Considering the observational outcomes, the formation of O-type stars (including ongoing star formation) in the system appears to be triggered by the collisions of molecular clouds at the bar-arm interface. |
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Bibliography: | AAS11073 Interstellar Matter and the Local Universe |
ISSN: | 0004-637X 1538-4357 |
DOI: | 10.3847/1538-4357/aadfe3 |