Rovibrational and rotational spectroscopy of the ν2=1, ν5=1, and ν3=2 levels of 13CH3 37Cl

Fourier-transform infrared (IR) spectra between 1235 and 1680 cm −1 and millimeter wave spectra between 198 and 455 GHz of monoisotopic 13 CH 3 37 Cl have been recorded and analysed simultaneously, taking into account all Coriolis, α-resonance, and l-type interactions in the polyad of the ν 2 =1, ν...

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Bibliographic Details
Published in:Molecular physics 2004-08, Vol.102 (16-17), p.1717-1730
Main Authors: Constantin, F. L., Demaison, J., Féjard, L., Litz, M., Bürger, H., Pracna, P.
Format: Article
Language:English
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Summary:Fourier-transform infrared (IR) spectra between 1235 and 1680 cm −1 and millimeter wave spectra between 198 and 455 GHz of monoisotopic 13 CH 3 37 Cl have been recorded and analysed simultaneously, taking into account all Coriolis, α-resonance, and l-type interactions in the polyad of the ν 2 =1, ν 5 =1 and ν 3 =2 levels. Several α-resonances (Δ k = ±2,Δ l = ∓ 1) generating perturbation-allowed transitions have been assigned both in the rovibrational and rotational spectra. This enabled us to determine accurately and independently A 0 = 5.2057128 (72) cm −1 , = 8.3968 (105)×10 −5  cm −1 , and even = 3.95 (38)× 10 −9  cm −1 . With 52 upper state parameters varied, more than 5300 IR wavenumbers and 162 rotational frequencies pertaining to the excited vibrational states were fitted within their experimental accuracy. The textbook example of a first-order Coriolis resonant crossing between the A and E fundamental vibrational levels (ν 2 =1 and ν 5 =1) is discussed in detail with implications for the structures of the corresponding parallel ν 2 and perpendicular ν 5 bands and their intensity perturbations.
ISSN:0026-8976
1362-3028
DOI:10.1080/00268970412331287115