Resonance Raman spectra of the S4 molecule in the sulfur vapor

## Abstract Sulphur vapour was investigated by Raman spectroscopy using six laser excitation wavelengths located in the electronic absorption band of the S~3~ molecule (406.7–514.5 nm). With excitation wavelengths close to the S~3~ λ~max~ (395 nm) the spectra are mainly resonance enhanced. With the

Raman spectra have been obtained on resonance with the 2 'A, state of room temperature cis-1,3,5-hexatriene vapor at 290.8 nm. Overtones and combination bands of totally symmetric stretching and bending modes, both alone and in combination with an interval probably assignable as the overtone of the

Novel features in the resonance Raman spectra of metalloporphyrins are predicted to ensue via the recently revealed crossquadralic nuclear potential terms involving modes of different symmetry\_ Such terms were shown to prevail in the doubly degenerate excited electronic states corresponding to the

A general formalism for resonance Raman scattering is presented which treats both linear and quadratic electronphoton interactions. The time correlation functions which are involved in resonance Raman scattering both from a single vibronic state and from the initially distributed vibronic states are