Show pageOld revisionsBacklinksBack to top This page is read only. You can view the source, but not change it. Ask your administrator if you think this is wrong. ===== On the Detection of Cyanohexatriyne, HC7N, in the ISM ===== H. W. Kroto, C. Kirby, D. R. M. Walton, L. W. Avery, N. W. Broten, J. M. MacLeod, and T. Oka,\\ **[[https://ui.adsabs.harvard.edu/abs/1978ApJ...219L.133K|The Detection of Cyanohexatriyne, H(C≡C)<sub>3</sub>CN, in Heile's Cloud 2]]**\\ //Astrophys. J.// **219**, L133–L137 (1978)\\ reported the first detection of this cyanopolyyne in two transitions (//J// = 9 – 8 and 21 – 20 near 10.15 and 23.69 GHz, respectively) in Heile's Cloud 2 employing the 46 m radio telecope of the Algonquin Radio Observatory. More recently, the Effelsberg 100 m telecope was used to study the circumstellar shell of the famous carbon star CW Leo:\\ G. Winnewisser and C. M. Walmsley,\\ **[[https://ui.adsabs.harvard.edu/abs/1978A%26A....70L..37W|The Detection of HC<sub>5</sub>N and HC<sub>7</sub>N in IRC +10216]]**\\ //Astron. Astrophys.// **70**, L37–L39 (1978).\\ The //J// = 21 – 10 transition near 23.688 GHz was detected for the larger polyyne. The molecule has also been detected with the Effelsberg 100 m telescope in the circumstellar envelope of the carbon-rich post-AGB star V1610 Cyg, which is somewhat better known as CRL 2688, by\\ Nguyen-Q-Rieu, D. Graham, and V. Bujarrabal,\\ **[[https://ui.adsabs.harvard.edu/abs/1984A%26A...138L...5N|Ammonia and Cyanotriacetylene in the Envelopes of CRL 2688 and IRC +10216]]**\\ //Astron. Astrophys.// **138**, L5–L8 (1984). G. Langston and B. E. Turner described the\\ **[[https://doi.org/10.1086/511332|Detection of <sup>13</sup>C Isotopomers of the Molecule HC<sub>7</sub>N]]**\\ //Astrophys. J.// **658**, 455–461 (2007).\\ They searched for the //J// = 12 – 11 and 13 – 12 transitions in TMC-1 using the GBT 100 m telescope. No individual isotopomer was found. Instead, a barely significant signal was obtained by averaging all observations. DC<sub>7</sub>N and (individually) 6 of the 7 <sup>13</sup>C isotopomers were detected in the study\\ **[[https://doi.org/10.1093/mnras/stx2972|Detection of HC<sub>5</sub>N and HC<sub>7</sub>N Isotopologues in TMC-1 with the Green Bank Telescope]]**\\ //Mon. Not. R. Astron. Soc.// **474**, 5068–5075 (2018); by\\ A. M. Burkhardt, E. Herbst, S. V. Kalenskii, M. C. McCarthy, A. J. Remijan, and B. A. McGuire.\\ J. R. Pardo, C. Bermúdez, C. Cabezas, M. Agúndez, J. D. Gallego, J. P. Fonfría, L. Velilla-Prieto, G. Quintana-Lacaci, B. Tercero, M. Guélin, and J. Cernicharo\\ reported on the\\ **[[https://doi.org/10.1051/0004-6361/202038571|Detection of Vibrationally Excited HC<sub>7</sub>N and HC<sub>9</sub>N in IRC +10216]]**\\ //Astron. Astrophys.// **640**, Art. No. L13 (2020).\\ The authors carried out an unbiased molecular line survey with the Yebes 40 m dish between 31 and 50 GHz toward the circumstellar envelope of the famous C-rich AGB star CW Leonis. Numerous transitions of HC<sub>7</sub>N in its lowest excited state //v//<sub>15</sub> = 1 were detected despite a rotational temperature of around 25 K. The derived HC<sub>5</sub>N to HC<sub>7</sub>N ratio is extremely low, roughly 2.4. The derived HC<sub>7</sub>N to HC<sub>9</sub>N ratio is still very low, roughly 7.7.\\ ---- Contributor(s): H. S. P. Müller; 04, 2012; 01, 2018; 08, 2020. ---- molecules/ism/hc7n.txt Last modified: 2020/08/12 12:42by mueller