Tunnelling splitting in the phosphine molecule
arXiv:1609.06053 · doi:10.1063/1.4962259
Abstract
Splitting due to tunnelling via the potential energy barrier has played a significant role in the study of molecular spectra since the early days of spectroscopy. The observation of the ammonia doublet led to attempts to find a phosphine analogous, but these have so far failed due to its considerably higher barrier. Full dimensional, variational nuclear motion calculations are used to predict splittings as a function of excitation energy. Simulated spectra suggest that such splittings should be observable in the near infrared via overtones of the $ν_2$ bending mode starting with $4ν_2$.