High resolution electronic spectroscopy of Ne⋅OH

The high resolution electronic spectrum of Ne⋅OH has been recorded in a supersonic free jet expansion using the laser-induced fluorescence technique. From an analysis of the spectrum which yields rotational constants, we are able to obtain Ne⋅OH bond lengths in several vibrational (hindered rotor) l...

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Bibliographic Details
Published in:The Journal of chemical physics 1992-03, Vol.96 (5), p.3476-3483
Main Authors: Chang, Bor-Chen, Cullin, David W., Williamson, James M., Dunlop, James R., Rehfuss, Brent D., Miller, Terry A.
Format: Article
Language:English
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Summary:The high resolution electronic spectrum of Ne⋅OH has been recorded in a supersonic free jet expansion using the laser-induced fluorescence technique. From an analysis of the spectrum which yields rotational constants, we are able to obtain Ne⋅OH bond lengths in several vibrational (hindered rotor) levels of the excited state and the vibrationless level of the ground state. We also measure the Fermi contact constant in the à state which is, unlike Ar⋅OH, insignificantly perturbed from the value in the OH monomer. However, we now measure a parity doubling of the X̃ state rotational levels which is tenfold larger than the upper limit we established for such an interaction in Ar⋅OH. We interpret these latter measurements to imply weaker and more isotropic bonding in Ne⋅OH compared to Ar⋅OH in both electronic states.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.461901