This shows you the differences between two versions of the page.
| Both sides previous revision Previous revision Next revision | Previous revision |
| molecules:ism:phenalene [2025/09/17 14:59] – mueller | molecules:ism:phenalene [2025/09/17 15:18] (current) – mueller |
|---|
| **[[https://doi.org/10.1051/0004-6361/202556687|Discovery of Interstellar Phenalene (//c//-C<sub>13</sub>H<sub>10</sub>): A new Piece in the Chemical Puzzle of PAHs in Space]]**\\ | **[[https://doi.org/10.1051/0004-6361/202556687|Discovery of Interstellar Phenalene (//c//-C<sub>13</sub>H<sub>10</sub>): A new Piece in the Chemical Puzzle of PAHs in Space]]**\\ |
| //Astron. Astrophys.// **701**, Art. No. L8 (2025).\\ | //Astron. Astrophys.// **701**, Art. No. L8 (2025).\\ |
| The molecular line survey was carried out with the Yebes 40 m radio telescope between 31.0 and 50.4 GHz. The two cyanoacenaphtalene isomers 1- and 5-C<sub>12</sub>H<sub>7</sub>CN were detected while the 3- and 4-C<sub>12</sub>H<sub>7</sub>CN isomers were not detected. While all of the isomers are asymmetric rotors of the prolate type, the detected isomers are more asymmetric (or closer to an oblate top asymmetric rotor).\\ | Phenalene was identified through several //a//-type rotational transitions, often series easier to detect because of oblate pairing of the transitions having the same //K<sub>c</sub>// close to //J// and then blended with weaker //b//-type transitions having equivalent quantum numbres. Some isolated //b//-type transitions were also assigned in the astronomical spectrum. The identifications were based on the QUIJOTE molecular line survey carried out with the Yebes 40 m radio telescope between 31.0 and 50.4 GHz, but phenalene assignments were made only up to 39.8 GHz. A rotational temperature of 8 K was derived. The column density of phenalene appears to be slightly larger than that of the lighter indene, albeit with considerable uncertainty.\\ |
| | |
| The molecules were identified through a plethora of //a//-type rotational transitions, several series easier to detect because of oblate pairing of the transitions having the same //K<sub>c</sub>// close to //J//. The derived column densities were equal, and a rotational temprerature of 9 K was derived. The authours also detected many lines of 1- and 2-cyanonaphtalene, again with equal column densities. Interestingly, the column densities of these slightly smaller molecules were about a factor of 1.7 lower than those of each of the cyanoacenaphtalenes.\\ | |
| | |
| The authors also search for the parent acenaphthylene molecule and cyanofluorene isomers, but found neither.\\ | |
| \\ | \\ |
| |