TY - JOUR
T1 - ALMA Observations of Giant Molecular Clouds in M33. III. Spatially Resolved Features of the Star formation Inactive Million-solar-mass Cloud
AU - Kondo, Hiroshi
AU - Tokuda, Kazuki
AU - Muraoka, Kazuyuki
AU - Nishimura, Atsushi
AU - Fujita, Shinji
AU - Tosaki, Tomoka
AU - Zahorecz, Sarolta
AU - Miura, Rie E.
AU - Kobayashi, Masato I.N.
AU - Onodera, Sachiko
AU - Torii, Kazufumi
AU - Kuno, Nario
AU - Sano, Hidetoshi
AU - Onishi, Toshikazu
AU - Saigo, Kazuya
AU - Fukui, Yasuo
AU - Kawamura, Akiko
AU - Tsuge, Kisetsu
AU - Tachihara, Kengo
N1 - Publisher Copyright:
© 2021. The American Astronomical Society. All rights reserved..
PY - 2021/5/1
Y1 - 2021/5/1
N2 - We present 12CO (J = 2-1), 13CO (J = 2-1), and C18O (J = 2-1) observations toward GMC-8, one of the most massive giant molecular clouds (GMCs) in M33 using ALMA with an angular resolution of 0.″44 0.″27 (∼2 pc 1 pc). The earlier studies revealed that its high-mass star formation is inactive in spite of a sufficient molecular reservoir with a total mass of ∼106 M o˙. The high-angular resolution data enable us to resolve this peculiar source down to a molecular clump scale. One of the GMC's remarkable features is that a round-shaped gas structure (the "Main cloud") extends over the ∼50 pc scale, which is quite different from the other two active star-forming GMCs dominated by remarkable filaments/shells obtained by our series of studies in M33. The fraction of the relatively dense gas traced by the 13CO data with respect to the total molecular mass is only ∼2%, suggesting that their spatial structure and the density are not well developed to reach an active star formation. The CO velocity analysis shows that the GMC is composed of a single component as a whole, but we found some local velocity fluctuations in the Main cloud and extra blueshifted components at the outer regions. Comparing the CO with previously published large-scale H i data, we suggest that an external atomic gas flow supplied a sufficient amount of material to grow the GMC up to ∼106 M o˙.
AB - We present 12CO (J = 2-1), 13CO (J = 2-1), and C18O (J = 2-1) observations toward GMC-8, one of the most massive giant molecular clouds (GMCs) in M33 using ALMA with an angular resolution of 0.″44 0.″27 (∼2 pc 1 pc). The earlier studies revealed that its high-mass star formation is inactive in spite of a sufficient molecular reservoir with a total mass of ∼106 M o˙. The high-angular resolution data enable us to resolve this peculiar source down to a molecular clump scale. One of the GMC's remarkable features is that a round-shaped gas structure (the "Main cloud") extends over the ∼50 pc scale, which is quite different from the other two active star-forming GMCs dominated by remarkable filaments/shells obtained by our series of studies in M33. The fraction of the relatively dense gas traced by the 13CO data with respect to the total molecular mass is only ∼2%, suggesting that their spatial structure and the density are not well developed to reach an active star formation. The CO velocity analysis shows that the GMC is composed of a single component as a whole, but we found some local velocity fluctuations in the Main cloud and extra blueshifted components at the outer regions. Comparing the CO with previously published large-scale H i data, we suggest that an external atomic gas flow supplied a sufficient amount of material to grow the GMC up to ∼106 M o˙.
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U2 - 10.3847/1538-4357/abeb65
DO - 10.3847/1538-4357/abeb65
M3 - Article
AN - SCOPUS:85106326591
VL - 912
JO - Astrophysical Journal
JF - Astrophysical Journal
SN - 0004-637X
IS - 1
M1 - 66
ER -