Symmetry reduction–vibronically induced mode mixing in the S1 state of β-methylnaphthalene

Abstract

Supersonic jet excitation and single vibronic level (SVL) dispersed fluorescence spectra for α‐ and β‐methylnaphthalene (S₁ state) are presented. Marked mirror symmetry breakdown between the excitation and origin excited fluorescence spectra of the β isomer is observed. The SVL spectra reveal that mode mixing in the S₁ state is too extensive to be accounted for by first order treatment of the Duschinsky effect. Vibronically induced mode mixing in the β isomer is suggested as the mechanism which leads to intramolecular vibrational energy redistribution which onsets at a significantly lower excess vibrational energy than in naphthalene. The implications of our findings for other polyatomics are discussed.