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molecules:ism:cyanonaphtalin [2021/04/13 12:09] – mueller | molecules:ism:cyanonaphtalin [2024/10/28 10:10] (current) – mueller |
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===== On the Detection of Cyanonaphtalene, C11H7CN, in the ISM ===== | ===== On the Detection of Cyanonaphtalenes, C<sub>10</sub>H<sub>7</sub>CN, in the ISM ===== |
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B. A. McGuire, R. A. Loomis, A. M. Burkhardt, K. L. K. Lee, C. N. Shingledecker, S. B. Charnley, I. R. Cooke, M. A. Cordiner, E. Herbst, S. Kalenskii, M. A. Siebert, E. R. Willis, C. Xue, A. J. Remijan, M. C. McCarthy\\ | B. A. McGuire, R. A. Loomis, A. M. Burkhardt, K. L. K. Lee, C. N. Shingledecker, S. B. Charnley, I. R. Cooke, M. A. Cordiner, E. Herbst, S. Kalenskii, M. A. Siebert, E. R. Willis, C. Xue, A. J. Remijan, M. C. McCarthy\\ |
**[[https://doi.org/10.1126/science.abb7535|Detection of two interstellar polycyclic aromatic hydrocarbons via spectral matched filtering]]**\\ | **[[https://doi.org/10.1126/science.abb7535|Detection of two interstellar polycyclic aromatic hydrocarbons via spectral matched filtering]]**\\ |
//Science// **371**, 1265−1269 (2021).\\ | //Science// **371**, 1265−1269 (2021).\\ |
The observations were obtained in the course of the line survey Green Bank Telescope Observations of TMC-1: Hunting for Aromatic Molecules. The data were recorded with very high resolution which resolves, at least in part, the complex velocity structure and the <sup>14</sup>N hyperfine structure splitting. The molecules 1-cyanonaphtalene and 2-cyanonaphtalene were indentified through line-stacking with good signal-to-noise ratios. In fact, after additional observations carried out in the review process, the S/Ns of some lines of 1-cyanonaphtalene were good enough to be identified individually after modest smoothing. Both molecules are obviously not hydrobarbons, but simple hydrocarbon derivatives.\\ | The observations were obtained in the course of the line survey Green Bank Telescope Observations of TMC-1: Hunting for Aromatic Molecules. The data were recorded with very high resolution which resolves, at least in part, the complex velocity structure and the <sup>14</sup>N hyperfine structure splitting. The molecules 1-cyanonaphtalene and 2-cyanonaphtalene were indentified through line-stacking with good signal-to-noise ratios. In fact, after additional observations carried out in the review process, the S/Ns of some lines of 1-cyanonaphtalene were good enough to be identified individually after modest smoothing. Both molecules are obviously not hydrocarbons, but simple hydrocarbon derivatives.\\ |
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