Maps of Massive Clumps in the Early Stage of Cluster Formation: Two Modes of Cluster Formation, Coeval or Non-Coeval?
We present maps of 7 young massive molecular clumps within 5 target regions in the C18O (J=1-0) line emission, using the Nobeyama 45m telescope. These clumps, which are not associated with clusters, lie at distances between 0.7 to 2.1 kpc. We find C18O clumps with radii of 0.5-1.7 pc, masses of 470-...
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| creator | Higuchi, Aya E Kurono, Yasutaka Naoi, Takahiro Saito, Masao Mauersberger, Rainer Kawabe, Ryohei |
| description | We present maps of 7 young massive molecular clumps within 5 target regions in the C18O (J=1-0) line emission, using the Nobeyama 45m telescope. These clumps, which are not associated with clusters, lie at distances between 0.7 to 2.1 kpc. We find C18O clumps with radii of 0.5-1.7 pc, masses of 470-4200 Msun, and velocity widths of 1.4-3.3 km/s. All of the clumps are massive and approximately in virial equilibrium, suggesting they will potentially form clusters. Three of our target regions are associated with H II regions ("CWHRs" from Clump with H II Regions), and the other two are without H II regions (CWOHRs). The C18O clumps can be classified into two morphological types: CWHRs shape a filamentary or shell-like structure, CWOHRs are spherical. The two CWOHRs have systematic velocity gradients. Using the publicly released WISE database, Class I and Class II protostellar candidates were identified within the C18O clumps. The fraction of the Class I candidates among all YSO candidates (Class I+Class II) is > 50 % in CWHRs, and < 50 % in CWOHRs. We conclude that effects from the H II regions can be seen in (1) spatial distributions of the clumps: filamentary or shell-like structure running along the H II regions, (2) velocity structures of the clumps: large velocity dispersion along shells, and (3) small age spreads of YSOs. The small spread in age of the YSOs show that the presence of H II regions tend to trigger coeval cluster formation. |
| doi_str_mv | 10.48550/arxiv.1301.3199 |
| format | Article |
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These clumps, which are not associated with clusters, lie at distances between 0.7 to 2.1 kpc. We find C18O clumps with radii of 0.5-1.7 pc, masses of 470-4200 Msun, and velocity widths of 1.4-3.3 km/s. All of the clumps are massive and approximately in virial equilibrium, suggesting they will potentially form clusters. Three of our target regions are associated with H II regions ("CWHRs" from Clump with H II Regions), and the other two are without H II regions (CWOHRs). The C18O clumps can be classified into two morphological types: CWHRs shape a filamentary or shell-like structure, CWOHRs are spherical. The two CWOHRs have systematic velocity gradients. Using the publicly released WISE database, Class I and Class II protostellar candidates were identified within the C18O clumps. The fraction of the Class I candidates among all YSO candidates (Class I+Class II) is > 50 % in CWHRs, and < 50 % in CWOHRs. We conclude that effects from the H II regions can be seen in (1) spatial distributions of the clumps: filamentary or shell-like structure running along the H II regions, (2) velocity structures of the clumps: large velocity dispersion along shells, and (3) small age spreads of YSOs. The small spread in age of the YSOs show that the presence of H II regions tend to trigger coeval cluster formation.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.1301.3199</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Clumps ; Clusters ; H II regions ; Physics - Astrophysics of Galaxies ; Protostars ; Star formation ; Velocity ; Velocity gradient</subject><ispartof>arXiv.org, 2013-01</ispartof><rights>2013. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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These clumps, which are not associated with clusters, lie at distances between 0.7 to 2.1 kpc. We find C18O clumps with radii of 0.5-1.7 pc, masses of 470-4200 Msun, and velocity widths of 1.4-3.3 km/s. All of the clumps are massive and approximately in virial equilibrium, suggesting they will potentially form clusters. Three of our target regions are associated with H II regions ("CWHRs" from Clump with H II Regions), and the other two are without H II regions (CWOHRs). The C18O clumps can be classified into two morphological types: CWHRs shape a filamentary or shell-like structure, CWOHRs are spherical. The two CWOHRs have systematic velocity gradients. Using the publicly released WISE database, Class I and Class II protostellar candidates were identified within the C18O clumps. The fraction of the Class I candidates among all YSO candidates (Class I+Class II) is > 50 % in CWHRs, and < 50 % in CWOHRs. We conclude that effects from the H II regions can be seen in (1) spatial distributions of the clumps: filamentary or shell-like structure running along the H II regions, (2) velocity structures of the clumps: large velocity dispersion along shells, and (3) small age spreads of YSOs. 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These clumps, which are not associated with clusters, lie at distances between 0.7 to 2.1 kpc. We find C18O clumps with radii of 0.5-1.7 pc, masses of 470-4200 Msun, and velocity widths of 1.4-3.3 km/s. All of the clumps are massive and approximately in virial equilibrium, suggesting they will potentially form clusters. Three of our target regions are associated with H II regions ("CWHRs" from Clump with H II Regions), and the other two are without H II regions (CWOHRs). The C18O clumps can be classified into two morphological types: CWHRs shape a filamentary or shell-like structure, CWOHRs are spherical. The two CWOHRs have systematic velocity gradients. Using the publicly released WISE database, Class I and Class II protostellar candidates were identified within the C18O clumps. The fraction of the Class I candidates among all YSO candidates (Class I+Class II) is > 50 % in CWHRs, and < 50 % in CWOHRs. We conclude that effects from the H II regions can be seen in (1) spatial distributions of the clumps: filamentary or shell-like structure running along the H II regions, (2) velocity structures of the clumps: large velocity dispersion along shells, and (3) small age spreads of YSOs. The small spread in age of the YSOs show that the presence of H II regions tend to trigger coeval cluster formation.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1301.3199</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Clumps Clusters H II regions Physics - Astrophysics of Galaxies Protostars Star formation Velocity Velocity gradient |
| title | Maps of Massive Clumps in the Early Stage of Cluster Formation: Two Modes of Cluster Formation, Coeval or Non-Coeval? |
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