Conformational Effects on Circular Dichroism in the Photoelectron Angular Distribution

Abstract

The B‐spline density‐functional method has been applied to the conformers of the (1__R__, 2__R__)‐1,2‐dibromo‐1,2‐dichloro‐1,2‐difluoroethane molecule. The cross section, asymmetry, and dichroic parameters relative to core and valence orbitals, which do not change their nature along the conformational curve, have been systematically studied. While the cross section and the asymmetry parameter are weakly affected, the dichroic parameter appears to be rather sensitive to the particular conformer of the molecule, suggesting that this dynamical property could be a useful tool for conformational analysis. The computational method has also been applied to methyl rotation in methyloxirane. Unexpected and dramatic sensitivity of the dichroic‐parameter profile to the methyl rotation, both in the core and valence states, has been found. Boltzmann averaging over the conformers reproduces quite closely the profiles previously obtained for the minimum‐energy conformation, which is in good agreement with the experimental results.