Time-resolved Fourier transform infrared emission spectroscopy of CO ∆v = 1 and ∆v = 2 extended bands in the ground X1Σ+ state produced by formamide glow discharge

Time-resolved Fourier transform infrared emission spectroscopy of CO ∆v = 1 and ∆v = 2 extended bands in the ground X1Σ+ state produced by formamide glow discharge

•An extension to the knowledge of ∆v = 1 and ∆v = 2 bands of carbon monoxide in the ground state, measured up to v = 30 for ∆v = 1 and up to v = 24 for ∆v = 2 band.•Dunham parameters obtained by fitting as well as comparison to other authors.•Non-LTE model to describe the intensity pattern of the ∆v...

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Bibliographic Details
Published in:Journal of quantitative spectroscopy & radiative transfer Vol. 262; p. 107521
Main Authors: Pastorek, Adam, Civiš, Svatopluk, Clark, Victoria H.J., Yurchenko, Sergei N., Ferus, Martin
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-03-2021
Subjects:
Carbon monoxide
Formamide
FTIR
Glow discharge
Spectroscopy
Time resolved
Spectroscopy
Time resolved
Formamide
Carbon monoxide
FTIR
Glow discharge
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Summary:•An extension to the knowledge of ∆v = 1 and ∆v = 2 bands of carbon monoxide in the ground state, measured up to v = 30 for ∆v = 1 and up to v = 24 for ∆v = 2 band.•Dunham parameters obtained by fitting as well as comparison to other authors.•Non-LTE model to describe the intensity pattern of the ∆v = 1 and the ∆v = 2 bands of 12C16O experimental spectra. This paper presents an extension to our knowledge of ∆v = 1 and ∆v = 2 bands of carbon monoxide in the ground state, measured by Fourier transform infrared spectroscopy of glow discharge of formamide-nitrogen mixture. Lines in declared bands are measured up to v = 30 for ∆v = 1 and up to v = 24 for ∆v = 2 band, by use of both InSb and MCT detectors, which have not been measured in the laboratory before. Dunham parameters obtained by fitting our lines are presented as well as comparison to other authors. The paper also demonstrates the interesting impossibility of sufficient population of ∆v = 2 band of CO when only pure CO is used in the glow discharge, instead of formamide-based mixture. Additionally, we present a non-LTE model to describe the intensity pattern of the ∆v = 1 and the ∆v = 2 bands of 12C16O experimental spectra by simulating the corresponding non-LTE vibrational populations of CO.
ISSN:0022-4073
1879-1352
DOI:10.1016/j.jqsrt.2021.107521