CO Multi-line Imaging of Nearby Galaxies (COMING). II. Transitions between atomic and molecular gas, diffuse and dense gas, gas and stars in the dwarf galaxy NGC 2976

CO Multi-line Imaging of Nearby Galaxies (COMING). II. Transitions between atomic and molecular gas, diffuse and dense gas, gas and stars in the dwarf galaxy NGC 2976

Abstract In this study, we present the results of 12CO(J = 1–0), 13CO(J = 1–0), and C18O(J = 1–0) simultaneous observations of the dwarf galaxy NGC 2976 conducted as a part of the CO Multi-line Imaging of Nearby Galaxies (COMING) project using the Nobeyama 45 m telescope. We investigated the propert...

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Published in:Publications of the Astronomical Society of Japan Vol. 69; no. 4
Main Authors: Hatakeyama, Takuya, Kuno, Nario, Sorai, Kazuo, Kaneko, Hiroyuki, Miyamoto, Yusuke, Muraoka, Kazuyuki, Takeda, Miho, Yanagitani, Kazuki, Kishida, Nozomi, Umei, Michiko, Tanaka, Takahiro, Tomiyasu, Yuto, Nakanishi, Hiroyuki, Saita, Chey, Ueno, Saeko, Salak, Dragan, Matsumoto, Naoko, Morokuma-Matsui, Kana, Pan, Hsi-An, Nakai, Naomasa
Format: Journal Article
Language:English
Published: Oxford University Press 01-08-2017
Subjects:
galaxies: ISM
galaxies: star formation
galaxies: individual (NGC 2976)
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Summary:Abstract In this study, we present the results of 12CO(J = 1–0), 13CO(J = 1–0), and C18O(J = 1–0) simultaneous observations of the dwarf galaxy NGC 2976 conducted as a part of the CO Multi-line Imaging of Nearby Galaxies (COMING) project using the Nobeyama 45 m telescope. We investigated the properties of the molecular gas and star formation in NGC 2976. We found that the molecular gas fraction depends on the surface densities of the total gas and the star formation rate, according to the main stellar disks of spiral galaxies. The ratio of 12CO(J = 3–2) to 12CO(J = 1–0) implies that the temperature of the molecular gas increases with decreases in the surface density of molecular gas. We detected 13CO(J = 1–0) by using the stacking method. The ratio between the integrated intensities of 12CO(J = 1–0) and 13CO(J = 1–0) was 27 ± 11. These ratios imply that the diffuse gas phase is dominant in low surface density regimes. We obtained a lower limit of the ratio between the integrated intensities of 12CO(J = 1–0) and C18O(J = 1–0) of 21. The relation between the surface densities of the total gas and the star formation rate followed a power-law index of 2.08 ± 0.11, which was larger than that between the surface densities of the molecular gas and the star formation rate (1.62 ± 0.17). The steep slope in the relation between the surface densities of the total gas and the star formation rate can be attributed to the rapid increase in the fraction of molecular gas at the surface density of ∼ 10 M⊙. The kinematics of the molecular gas suggest that the bar-like feature rotates with a rigid-body rotation curve rather than a certain pattern speed.
ISSN:0004-6264
2053-051X
DOI:10.1093/pasj/psx044