Rotational and High-resolution Infrared Spectrum of HC3N: Global Ro-vibrational Analysis and Improved Line Catalog for Astrophysical Observations
HC3N is a ubiquitous molecule in interstellar environments, from external galaxies to Galactic interstellar clouds, star-forming regions, and planetary atmospheres. Observations of its rotational and vibrational transitions provide important information on the physical and chemical structures of the...
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| Veröffentlicht in: | The Astrophysical journal. Supplement series 2017-11, Vol.233 (1) |
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| creator | Bizzocchi, Luca Tamassia, Filippo Laas, Jacob Giuliano, Barbara M. Esposti, Claudio Degli Dore, Luca Melosso, Mattia Canè, Elisabetta Charmet, Andrea Pietropolli Müller, Holger S. P. Spahn, Holger Belloche, Arnaud Caselli, Paola Menten, Karl M. Garrod, Robin T. |
| description | HC3N is a ubiquitous molecule in interstellar environments, from external galaxies to Galactic interstellar clouds, star-forming regions, and planetary atmospheres. Observations of its rotational and vibrational transitions provide important information on the physical and chemical structures of the above environments. We present the most complete global analysis of the spectroscopic data of HC3N. We recorded the high-resolution infrared spectrum from 450 to 1350 cm−1, a region dominated by the intense and fundamental bands, located at 660 and 500 cm−1, respectively, and their associated hot bands. Pure rotational transitions in the ground and vibrationally excited states were recorded in the millimeter and submillimeter regions in order to extend the frequency range so far considered in previous investigations. All of the transitions from the literature and from this work involving energy levels lower than 1000 cm−1 were fitted together to an effective Hamiltonian. Because of the presence of various anharmonic resonances, the Hamiltonian includes a number of interaction constants, in addition to the conventional rotational and vibrational l-type resonance terms. The data set contains about 3400 ro-vibrational lines of 13 bands and some 1500 pure rotational lines belonging to 12 vibrational states. More than 120 spectroscopic constants were determined directly from the fit, without any assumption deduced from theoretical calculations or comparisons with similar molecules. An extensive list of highly accurate rest frequencies was produced to assist astronomical searches and data interpretation. These improved data enabled a refined analysis of the ALMA observations toward Sgr B2(N2). |
| doi_str_mv | 10.3847/1538-4365/aa9571 |
| format | Article |
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P. ; Spahn, Holger ; Belloche, Arnaud ; Caselli, Paola ; Menten, Karl M. ; Garrod, Robin T.</creator><creatorcontrib>Bizzocchi, Luca ; Tamassia, Filippo ; Laas, Jacob ; Giuliano, Barbara M. ; Esposti, Claudio Degli ; Dore, Luca ; Melosso, Mattia ; Canè, Elisabetta ; Charmet, Andrea Pietropolli ; Müller, Holger S. P. ; Spahn, Holger ; Belloche, Arnaud ; Caselli, Paola ; Menten, Karl M. ; Garrod, Robin T.</creatorcontrib><description>HC3N is a ubiquitous molecule in interstellar environments, from external galaxies to Galactic interstellar clouds, star-forming regions, and planetary atmospheres. Observations of its rotational and vibrational transitions provide important information on the physical and chemical structures of the above environments. We present the most complete global analysis of the spectroscopic data of HC3N. We recorded the high-resolution infrared spectrum from 450 to 1350 cm−1, a region dominated by the intense and fundamental bands, located at 660 and 500 cm−1, respectively, and their associated hot bands. Pure rotational transitions in the ground and vibrationally excited states were recorded in the millimeter and submillimeter regions in order to extend the frequency range so far considered in previous investigations. All of the transitions from the literature and from this work involving energy levels lower than 1000 cm−1 were fitted together to an effective Hamiltonian. Because of the presence of various anharmonic resonances, the Hamiltonian includes a number of interaction constants, in addition to the conventional rotational and vibrational l-type resonance terms. The data set contains about 3400 ro-vibrational lines of 13 bands and some 1500 pure rotational lines belonging to 12 vibrational states. More than 120 spectroscopic constants were determined directly from the fit, without any assumption deduced from theoretical calculations or comparisons with similar molecules. An extensive list of highly accurate rest frequencies was produced to assist astronomical searches and data interpretation. These improved data enabled a refined analysis of the ALMA observations toward Sgr B2(N2).</description><identifier>ISSN: 0067-0049</identifier><identifier>EISSN: 1538-4365</identifier><identifier>DOI: 10.3847/1538-4365/aa9571</identifier><language>eng</language><publisher>Saskatoon: The American Astronomical Society</publisher><subject>Clouds ; Data interpretation ; Galaxies ; Infrared analysis ; infrared: ISM ; Interstellar clouds ; ISM: molecules ; line: identification ; molecular data ; Planetary atmospheres ; radio lines: ISM ; Rotational spectra</subject><ispartof>The Astrophysical journal. Supplement series, 2017-11, Vol.233 (1)</ispartof><rights>2017. 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More than 120 spectroscopic constants were determined directly from the fit, without any assumption deduced from theoretical calculations or comparisons with similar molecules. An extensive list of highly accurate rest frequencies was produced to assist astronomical searches and data interpretation. 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| subjects | Clouds Data interpretation Galaxies Infrared analysis infrared: ISM Interstellar clouds ISM: molecules line: identification molecular data Planetary atmospheres radio lines: ISM Rotational spectra |
| title | Rotational and High-resolution Infrared Spectrum of HC3N: Global Ro-vibrational Analysis and Improved Line Catalog for Astrophysical Observations |
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