Long Carbon Chains in the Warm Carbon-chain-chemistry Source L1527: First Detection of C7H in Molecular Clouds
Long carbon-chain molecules were searched for toward the low-mass star-forming region L1527, which is a prototypical source of warm carbon-chain chemistry (WCCC), using the 100 m Green Bank Telescope. Long carbon-chain molecules, C7H (2 1/2), C6H (2 3/2 and 2 1/2), CH3C4H, and C6H2 (cumulene carbene...
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| Veröffentlicht in: | The Astrophysical journal 2017-09, Vol.847 (1) |
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| creator | Araki, Mitsunori Takano, Shuro Sakai, Nami Yamamoto, Satoshi Oyama, Takahiro Kuze, Nobuhiko Tsukiyama, Koichi |
| description | Long carbon-chain molecules were searched for toward the low-mass star-forming region L1527, which is a prototypical source of warm carbon-chain chemistry (WCCC), using the 100 m Green Bank Telescope. Long carbon-chain molecules, C7H (2 1/2), C6H (2 3/2 and 2 1/2), CH3C4H, and C6H2 (cumulene carbene, CCCCCCH2), and cyclic species of C3H and C3H2O were detected. In particular, C7H was detected for the first time in molecular clouds. The column density of C7H is determined to be 6 × 1010 cm−2. The column densities of the carbon-chain molecules including CH3C4H and C6H in L1527 relative to those in the starless dark cloud Taurus Molecular Cloud-1 Cyanopolyyne Peak (TMC-1 CP) tend to be systematically lower for long carbon-chain lengths. However, the column densities of C7H and C6H2 do not follow this trend and are found to be relatively abundant in L1527. This result implies that these long carbon-chain molecules are remnants of the cold starless phase. The results-that both the remnants and WCCC products are observed toward L1527-are consistent with the suggestion that the protostar can also be born in the parent core at a relatively early stage in the chemical evolution. |
| doi_str_mv | 10.3847/1538-4357/aa8637 |
| format | Article |
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Long carbon-chain molecules, C7H (2 1/2), C6H (2 3/2 and 2 1/2), CH3C4H, and C6H2 (cumulene carbene, CCCCCCH2), and cyclic species of C3H and C3H2O were detected. In particular, C7H was detected for the first time in molecular clouds. The column density of C7H is determined to be 6 × 1010 cm−2. The column densities of the carbon-chain molecules including CH3C4H and C6H in L1527 relative to those in the starless dark cloud Taurus Molecular Cloud-1 Cyanopolyyne Peak (TMC-1 CP) tend to be systematically lower for long carbon-chain lengths. However, the column densities of C7H and C6H2 do not follow this trend and are found to be relatively abundant in L1527. This result implies that these long carbon-chain molecules are remnants of the cold starless phase. The results-that both the remnants and WCCC products are observed toward L1527-are consistent with the suggestion that the protostar can also be born in the parent core at a relatively early stage in the chemical evolution.</description><identifier>ISSN: 0004-637X</identifier><identifier>EISSN: 1538-4357</identifier><identifier>DOI: 10.3847/1538-4357/aa8637</identifier><language>eng</language><publisher>Philadelphia: The American Astronomical Society</publisher><subject>Astrochemistry ; Astrophysics ; Carbon ; Chemical evolution ; Clouds ; ISM: clouds ; ISM: individual objects (L1527) ; ISM: molecules ; Low mass stars ; Molecular chains ; Molecular clouds ; Organic chemistry ; radio lines: ISM ; Star formation</subject><ispartof>The Astrophysical journal, 2017-09, Vol.847 (1)</ispartof><rights>2017. The American Astronomical Society. 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J</addtitle><description>Long carbon-chain molecules were searched for toward the low-mass star-forming region L1527, which is a prototypical source of warm carbon-chain chemistry (WCCC), using the 100 m Green Bank Telescope. Long carbon-chain molecules, C7H (2 1/2), C6H (2 3/2 and 2 1/2), CH3C4H, and C6H2 (cumulene carbene, CCCCCCH2), and cyclic species of C3H and C3H2O were detected. In particular, C7H was detected for the first time in molecular clouds. The column density of C7H is determined to be 6 × 1010 cm−2. The column densities of the carbon-chain molecules including CH3C4H and C6H in L1527 relative to those in the starless dark cloud Taurus Molecular Cloud-1 Cyanopolyyne Peak (TMC-1 CP) tend to be systematically lower for long carbon-chain lengths. However, the column densities of C7H and C6H2 do not follow this trend and are found to be relatively abundant in L1527. This result implies that these long carbon-chain molecules are remnants of the cold starless phase. 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J</addtitle><date>2017-09-20</date><risdate>2017</risdate><volume>847</volume><issue>1</issue><issn>0004-637X</issn><eissn>1538-4357</eissn><abstract>Long carbon-chain molecules were searched for toward the low-mass star-forming region L1527, which is a prototypical source of warm carbon-chain chemistry (WCCC), using the 100 m Green Bank Telescope. Long carbon-chain molecules, C7H (2 1/2), C6H (2 3/2 and 2 1/2), CH3C4H, and C6H2 (cumulene carbene, CCCCCCH2), and cyclic species of C3H and C3H2O were detected. In particular, C7H was detected for the first time in molecular clouds. The column density of C7H is determined to be 6 × 1010 cm−2. The column densities of the carbon-chain molecules including CH3C4H and C6H in L1527 relative to those in the starless dark cloud Taurus Molecular Cloud-1 Cyanopolyyne Peak (TMC-1 CP) tend to be systematically lower for long carbon-chain lengths. However, the column densities of C7H and C6H2 do not follow this trend and are found to be relatively abundant in L1527. This result implies that these long carbon-chain molecules are remnants of the cold starless phase. The results-that both the remnants and WCCC products are observed toward L1527-are consistent with the suggestion that the protostar can also be born in the parent core at a relatively early stage in the chemical evolution.</abstract><cop>Philadelphia</cop><pub>The American Astronomical Society</pub><doi>10.3847/1538-4357/aa8637</doi><tpages>7</tpages><orcidid>https://orcid.org/0000-0003-4530-9741</orcidid><orcidid>https://orcid.org/0000-0002-3297-4497</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Astrochemistry Astrophysics Carbon Chemical evolution Clouds ISM: clouds ISM: individual objects (L1527) ISM: molecules Low mass stars Molecular chains Molecular clouds Organic chemistry radio lines: ISM Star formation |
| title | Long Carbon Chains in the Warm Carbon-chain-chemistry Source L1527: First Detection of C7H in Molecular Clouds |
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