SOLEIL and ALMA views on prototypical organic nitriles: C2H5CN

[Display omitted] •First high-resolution infrared study of ethyl cyanid.•Four energetically lowest vibrational fundamentals studied.•Global fits of infrared and pure rotational spectra performed.•Strong vibrational satellites towards high mass star forming region assigned. The high resolution vibrat...

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Published inJournal of molecular spectroscopy Vol. 375; p. 111392
Main Authors Endres, Christian P., Martin-Drumel, Marie-Aline, Zingsheim, Oliver, Bonah, Luis, Pirali, Olivier, Zhang (张天惟), Tianwei, Sánchez-Monge, Álvaro, Möller, Thomas, Wehres, Nadine, Schilke, Peter, McCarthy, Michael C., Schlemmer, Stephan, Caselli, Paola, Thorwirth, Sven
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.01.2021
Elsevier
Subjects
ALMA observations
Chemical Physics
Ethyl cyanide
Far-IR rotation-vibration
G327.3–0.6
Physics
Propionitrile
Synchrotron
Ethyl cyanide
Far-IR rotation-vibration
Synchrotron
ALMA observations
Propionitrile
G327.3–0.6
G327.3−0.6
Online AccessGet full text
ISSN0022-2852
1096-083X
DOI10.1016/j.jms.2020.111392

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Abstract [Display omitted] •First high-resolution infrared study of ethyl cyanid.•Four energetically lowest vibrational fundamentals studied.•Global fits of infrared and pure rotational spectra performed.•Strong vibrational satellites towards high mass star forming region assigned. The high resolution vibrational spectrum of ethyl cyanide (C2H5CN) has been investigated in the far-IR using synchrotron-based Fourier transform spectroscopy. The assignment was performed using the Automated Spectral Assignment Procedure (ASAP) allowing accurate rotational energy levels of the four lowest fundamental vibrations of the species, namely the v13=1 @ 205.934099(8)cm−1, v21=1 @ 212.141101(8)cm−1, v20=1 @ 372.635293(15)cm−1, and v12=1 @ 532.699617(16)cm−1 states, to be determined. The analysis not only confirms the applicability of the ASAP in the treatment of (dense) high-resolution infrared spectra but also reveals some of its limitations. Complementary to the infrared study, the pure rotational spectrum of C2H5CN was also studied in selected frequency ranges from 75 to 255GHz. New observations of a prototypical high-mass star-forming region, G327.3–0.6, performed with the Atacama Large Millimeter Array show that vibrational satellites of C2H5CN can be very intense, of order several tens of Kelvin in units of brightness temperature.
AbstractList The high resolution vibrational spectrum of ethyl cyanide (C2H5CN) has been investigated in the far-IR using synchrotron-based Fourier transform spectroscopy. The assignment was performed using the Automated Spectral Assignment Procedure (ASAP) allowing accurate rotational energy levels of the four lowest fundamental vibrations of the species, namely the v 13 = 1 @ 205.934099(8) cm −1 , and v 21 = 1 @ 212.141101(8) cm −1 , v 20 = 1 @ 372.635293(15) cm −1 , v 12 = 1 @ 532.699617(16) cm −1 states, to be determined. The analysis not only confirms the applicability of the ASAP in the treatment of (dense) highresolution infrared spectra but also reveals some of its limitations. Complementary to the infrared study, the pure rotational spectrum of C2H5CN was also studied in selected frequency ranges from 75 to 255 GHz. New observations of a prototypical high-mass star-forming region, G327.3−0.6, performed with the Atacama Large Millimeter Array show that vibrational satellites of C2H5CN can be very intense, of order several tens of Kelvin in units of brightness temperature.
[Display omitted] •First high-resolution infrared study of ethyl cyanid.•Four energetically lowest vibrational fundamentals studied.•Global fits of infrared and pure rotational spectra performed.•Strong vibrational satellites towards high mass star forming region assigned. The high resolution vibrational spectrum of ethyl cyanide (C2H5CN) has been investigated in the far-IR using synchrotron-based Fourier transform spectroscopy. The assignment was performed using the Automated Spectral Assignment Procedure (ASAP) allowing accurate rotational energy levels of the four lowest fundamental vibrations of the species, namely the v13=1 @ 205.934099(8)cm−1, v21=1 @ 212.141101(8)cm−1, v20=1 @ 372.635293(15)cm−1, and v12=1 @ 532.699617(16)cm−1 states, to be determined. The analysis not only confirms the applicability of the ASAP in the treatment of (dense) high-resolution infrared spectra but also reveals some of its limitations. Complementary to the infrared study, the pure rotational spectrum of C2H5CN was also studied in selected frequency ranges from 75 to 255GHz. New observations of a prototypical high-mass star-forming region, G327.3–0.6, performed with the Atacama Large Millimeter Array show that vibrational satellites of C2H5CN can be very intense, of order several tens of Kelvin in units of brightness temperature.
ArticleNumber 111392
Author Thorwirth, Sven
Bonah, Luis
Schlemmer, Stephan
Martin-Drumel, Marie-Aline
Zhang (张天惟), Tianwei
Wehres, Nadine
McCarthy, Michael C.
Endres, Christian P.
Sánchez-Monge, Álvaro
Möller, Thomas
Zingsheim, Oliver
Caselli, Paola
Pirali, Olivier
Schilke, Peter
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  givenname: Tianwei
  surname: Zhang (张天惟)
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  surname: Thorwirth
  fullname: Thorwirth, Sven
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Keywords Ethyl cyanide
Far-IR rotation-vibration
Synchrotron
ALMA observations
Propionitrile
G327.3–0.6
G327.3−0.6
Language English
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Snippet [Display omitted] •First high-resolution infrared study of ethyl cyanid.•Four energetically lowest vibrational fundamentals studied.•Global fits of infrared...
The high resolution vibrational spectrum of ethyl cyanide (C2H5CN) has been investigated in the far-IR using synchrotron-based Fourier transform spectroscopy....
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SubjectTerms ALMA observations
Chemical Physics
Ethyl cyanide
Far-IR rotation-vibration
G327.3–0.6
Physics
Propionitrile
Synchrotron
Title SOLEIL and ALMA views on prototypical organic nitriles: C2H5CN
URI https://dx.doi.org/10.1016/j.jms.2020.111392
https://hal.science/hal-03039197
Volume 375
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