Elias M. Reid scite author profile

Quantum chemistry packages can be used to predict with reasonable accuracy spin-rotation hyperfine interaction constants for methanol, which contains one methyl-top internal rotor. In this work we use one of these packages to calculate components of the spin-rotation interaction tensor for acetaldehyde. We then use torsion-rotation wavefunctions obtained from a fit to the acetaldehyde torsion-rotation spectrum to calculate the expected magnitude of hyperfine splittings analogous to those observed at relatively high J values in the E symmetry states of methanol. We find that theory does indeed predict doublet splittings at moderate J values in the acetaldehyde torsion-rotation spectrum, which closely resemble those seen in methanol, but that the factor of three decrease in hyperfine spin-rotation constants compared to methanol puts the largest of the acetaldehyde splittings a factor of two below presently available Lamb-dip resolution.

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Ftir Synchrotron Spectroscopy of the Asymmetric C-H Stretching Bands of Methyl Mercaptan (Ch3sh) – A Perplexity of Perturbations

Lees¹,

Billinghurst²,

Twagirayezu³

et al. 2016

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The infrared Fourier transform spectrum of the asymmetric C-H stretching bands of CH 3 SH has been recorded in the 2950-3100 cm −1 region at Doppler limited resolution using synchrotron radiation at the FIR beamline of the Canadian Light Source in Saskatoon. Assignment of numerous torsion-rotation sub-bands for the asymmetric stretches has revealed a surprising pseudo-symmetric behavior, in which each band is seen in only one of the two possible ∆K selection rules. The upper states of the two asymmetric stretching vibrational bands thus appear to behave more like l = ± 1 components of a degenerate E state of a symmetric top rather than distinct vibrational states. The two components are separated by about 1.5 cm −1 at K = 0, and then diverge linearly at higher K with torsional oscillation amplitude similar to that of the ground state of about 1.3 cm −1 . The divergence is consistent with an a-type Coriolis splitting picture with an effective Coriolis constant ζ ≈ 0.075.

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Elias M. Reid

Torsion-rotation structure and quasi-symmetric-rotor behaviour for the CH3SH asymmetric CH3-bending and C-H stretching bands of E parentage

Giant K-doubling and in-plane/out-of-plane mixing in the asymmetric methyl-bending bands of CH3SH

Ab initio study of fast small-amplitude vibrations as functions of slow large-amplitude motions in CD3OH and comparison to CH3OH

Ab initio calculations of torsionally mediated hyperfine splittings in E states of acetaldehyde

Ftir Synchrotron Spectroscopy of the Asymmetric C-H Stretching Bands of Methyl Mercaptan (Ch3sh) – A Perplexity of Perturbations

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