Systematic Variations of CO J = 2-1/1-0 Ratio and Their Implications in the Nearby Barred Spiral Galaxy M83

Jin Koda; Tsuyoshi Sawada; Kazushi Sakamoto; Akihiko Hirota; Fumi Egusa; Samuel Boissier; Daniela Calzetti; Jennifer Donovan Meyer; Bruce G. Elmegreen; Armando Gil De Paz; Nanase Harada; Luis C. Ho; Masato I.N. Kobayashi; Nario Kuno; Sergio Martín; Kazuyuki Muraoka; Kouichiro Nakanishi; Nick Scoville; Mark Seibert; Catherine Vlahakis; Yoshimasa Watanabe

doi:10.3847/2041-8213/ab70b7

Systematic Variations of CO J = 2-1/1-0 Ratio and Their Implications in the Nearby Barred Spiral Galaxy M83

Jin Koda, Tsuyoshi Sawada, Kazushi Sakamoto, Akihiko Hirota, Fumi Egusa, Samuel Boissier, Daniela Calzetti, Jennifer Donovan Meyer, Bruce G. Elmegreen, Armando Gil De Paz, Nanase Harada, Luis C. Ho, Masato I.N. Kobayashi, Nario Kuno, Sergio Martín, Kazuyuki Muraoka, Kouichiro Nakanishi, Nick Scoville, Mark Seibert, Catherine VlahakisYoshimasa Watanabe

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Abstract

We present spatial variations of the CO J = 2-1/1-0 line ratio in the barred spiral galaxy M83 using Total Power Array (single-dish telescopes) data from the Atacama Large Millimeter/submillimeter Array. While the intensities of these two lines correlate tightly, varies over the disk, with a disk average ratio of 0.69, and shows the galactic center and a two-arm spiral pattern. It is high (0.7) in regions of high molecular gas surface density (Σ_mol), but ranges from low to high ratios in regions of low Σ_mol. The ratio correlates well with the spatial distributions and intensities of far-ultraviolet (FUV) and infrared (IR) emissions, with FUV being the best correlated. It also correlates better with the ratio of specific intensities at 70 and 350 μm, a proxy for dust temperature, than with the IR intensities. Taken together, these results suggest either a direct or indirect link between the dust heating by the interstellar radiation field and the condition of giant molecular clouds (GMCs), even though no efficient mechanism is known for a thermal coupling of dust and bulk gas in GMCs. We speculate that the large spread of in low Σ_mol regions, mostly at the downstream sides of spiral arms, may be due to the evolution of massive stars after spiral arm passage. Having in a late phase escaped from the spiral arms and their parental clouds, they may contribute to the dust heating by FUV and gas heating by cosmic rays produced by supernovae.

Original language	English
Article number	L10
Journal	Astrophysical Journal Letters
Volume	890
Issue number	1
DOIs	https://doi.org/10.3847/2041-8213/ab70b7
Publication status	Published - 2020 Feb 10
Externally published	Yes

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/2041-8213/ab70b7

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Koda, J., Sawada, T., Sakamoto, K., Hirota, A., Egusa, F., Boissier, S., Calzetti, D., Meyer, J. D., Elmegreen, B. G., De Paz, A. G., Harada, N., Ho, L. C., Kobayashi, M. I. N., Kuno, N., Martín, S., Muraoka, K., Nakanishi, K., Scoville, N., Seibert, M., ... Watanabe, Y. (2020). Systematic Variations of CO J = 2-1/1-0 Ratio and Their Implications in the Nearby Barred Spiral Galaxy M83. Astrophysical Journal Letters, 890(1), [L10]. https://doi.org/10.3847/2041-8213/ab70b7

Koda, J, Sawada, T, Sakamoto, K, Hirota, A, Egusa, F, Boissier, S, Calzetti, D, Meyer, JD, Elmegreen, BG, De Paz, AG, Harada, N, Ho, LC, Kobayashi, MIN, Kuno, N, Martín, S, Muraoka, K, Nakanishi, K, Scoville, N, Seibert, M, Vlahakis, C & Watanabe, Y 2020, 'Systematic Variations of CO J = 2-1/1-0 Ratio and Their Implications in the Nearby Barred Spiral Galaxy M83', Astrophysical Journal Letters, vol. 890, no. 1, L10. https://doi.org/10.3847/2041-8213/ab70b7

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title = "Systematic Variations of CO J = 2-1/1-0 Ratio and Their Implications in the Nearby Barred Spiral Galaxy M83",

abstract = "We present spatial variations of the CO J = 2-1/1-0 line ratio in the barred spiral galaxy M83 using Total Power Array (single-dish telescopes) data from the Atacama Large Millimeter/submillimeter Array. While the intensities of these two lines correlate tightly, varies over the disk, with a disk average ratio of 0.69, and shows the galactic center and a two-arm spiral pattern. It is high (0.7) in regions of high molecular gas surface density (Σmol), but ranges from low to high ratios in regions of low Σmol. The ratio correlates well with the spatial distributions and intensities of far-ultraviolet (FUV) and infrared (IR) emissions, with FUV being the best correlated. It also correlates better with the ratio of specific intensities at 70 and 350 μm, a proxy for dust temperature, than with the IR intensities. Taken together, these results suggest either a direct or indirect link between the dust heating by the interstellar radiation field and the condition of giant molecular clouds (GMCs), even though no efficient mechanism is known for a thermal coupling of dust and bulk gas in GMCs. We speculate that the large spread of in low Σmol regions, mostly at the downstream sides of spiral arms, may be due to the evolution of massive stars after spiral arm passage. Having in a late phase escaped from the spiral arms and their parental clouds, they may contribute to the dust heating by FUV and gas heating by cosmic rays produced by supernovae.",

author = "Jin Koda and Tsuyoshi Sawada and Kazushi Sakamoto and Akihiko Hirota and Fumi Egusa and Samuel Boissier and Daniela Calzetti and Meyer, {Jennifer Donovan} and Elmegreen, {Bruce G.} and {De Paz}, {Armando Gil} and Nanase Harada and Ho, {Luis C.} and Kobayashi, {Masato I.N.} and Nario Kuno and Sergio Mart{\'i}n and Kazuyuki Muraoka and Kouichiro Nakanishi and Nick Scoville and Mark Seibert and Catherine Vlahakis and Yoshimasa Watanabe",

note = "Funding Information: 2020-02-10 2020-02-11 12:45:38 cgi/release: Article released bin/incoming: New from .zip NSF AST-1812847 National Science Foundation of China 11721303 11991052 National Key R&D Program of China 2016YFA0400702 yes Publisher Copyright: {\textcopyright} 2020. The American Astronomical Society. All rights reserved.",

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doi = "10.3847/2041-8213/ab70b7",

language = "English",

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T1 - Systematic Variations of CO J = 2-1/1-0 Ratio and Their Implications in the Nearby Barred Spiral Galaxy M83

AU - Koda, Jin

AU - Sawada, Tsuyoshi

AU - Sakamoto, Kazushi

AU - Hirota, Akihiko

AU - Egusa, Fumi

AU - Boissier, Samuel

AU - Calzetti, Daniela

AU - Meyer, Jennifer Donovan

AU - Elmegreen, Bruce G.

AU - De Paz, Armando Gil

AU - Harada, Nanase

AU - Ho, Luis C.

AU - Kobayashi, Masato I.N.

AU - Kuno, Nario

AU - Martín, Sergio

AU - Muraoka, Kazuyuki

AU - Nakanishi, Kouichiro

AU - Scoville, Nick

AU - Seibert, Mark

AU - Vlahakis, Catherine

AU - Watanabe, Yoshimasa

N1 - Funding Information: 2020-02-10 2020-02-11 12:45:38 cgi/release: Article released bin/incoming: New from .zip NSF AST-1812847 National Science Foundation of China 11721303 11991052 National Key R&D Program of China 2016YFA0400702 yes Publisher Copyright: © 2020. The American Astronomical Society. All rights reserved.

PY - 2020/2/10

Y1 - 2020/2/10

N2 - We present spatial variations of the CO J = 2-1/1-0 line ratio in the barred spiral galaxy M83 using Total Power Array (single-dish telescopes) data from the Atacama Large Millimeter/submillimeter Array. While the intensities of these two lines correlate tightly, varies over the disk, with a disk average ratio of 0.69, and shows the galactic center and a two-arm spiral pattern. It is high (0.7) in regions of high molecular gas surface density (Σmol), but ranges from low to high ratios in regions of low Σmol. The ratio correlates well with the spatial distributions and intensities of far-ultraviolet (FUV) and infrared (IR) emissions, with FUV being the best correlated. It also correlates better with the ratio of specific intensities at 70 and 350 μm, a proxy for dust temperature, than with the IR intensities. Taken together, these results suggest either a direct or indirect link between the dust heating by the interstellar radiation field and the condition of giant molecular clouds (GMCs), even though no efficient mechanism is known for a thermal coupling of dust and bulk gas in GMCs. We speculate that the large spread of in low Σmol regions, mostly at the downstream sides of spiral arms, may be due to the evolution of massive stars after spiral arm passage. Having in a late phase escaped from the spiral arms and their parental clouds, they may contribute to the dust heating by FUV and gas heating by cosmic rays produced by supernovae.

AB - We present spatial variations of the CO J = 2-1/1-0 line ratio in the barred spiral galaxy M83 using Total Power Array (single-dish telescopes) data from the Atacama Large Millimeter/submillimeter Array. While the intensities of these two lines correlate tightly, varies over the disk, with a disk average ratio of 0.69, and shows the galactic center and a two-arm spiral pattern. It is high (0.7) in regions of high molecular gas surface density (Σmol), but ranges from low to high ratios in regions of low Σmol. The ratio correlates well with the spatial distributions and intensities of far-ultraviolet (FUV) and infrared (IR) emissions, with FUV being the best correlated. It also correlates better with the ratio of specific intensities at 70 and 350 μm, a proxy for dust temperature, than with the IR intensities. Taken together, these results suggest either a direct or indirect link between the dust heating by the interstellar radiation field and the condition of giant molecular clouds (GMCs), even though no efficient mechanism is known for a thermal coupling of dust and bulk gas in GMCs. We speculate that the large spread of in low Σmol regions, mostly at the downstream sides of spiral arms, may be due to the evolution of massive stars after spiral arm passage. Having in a late phase escaped from the spiral arms and their parental clouds, they may contribute to the dust heating by FUV and gas heating by cosmic rays produced by supernovae.

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Systematic Variations of CO J = 2-1/1-0 Ratio and Their Implications in the Nearby Barred Spiral Galaxy M83

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