Resonance Raman scattering and electronic transitions in C60

The intensity of the resonance electronic Raman spectrum of terbium aluminum garnet is discussed in terms of radiative, nonradiative and pure electronic dephasing processes which govern the width of the resonating excited electronic state. As a result of fast electronic dephasing in comparison to th

Raman spectra (using 5 14 and 740 nm excitation) of high-purity single crystal CbO are presented for the high-and low-temperature phases, showing activity of all "gerade" modes. Within the experimental accuracy, the spectra are found to be consistent with the selection rules for Raman scattering in

Ti:c: complex rcsommcc Raman spcctia of molecular bromine have been .malyrcd quantitatively and a clear dcmonrtration of interfcrencc in the Ranun intensity from the L@IIQ+~) nnd 1 111, excited s:stes has been found.

Substantial electronic and vibrational interactions between solvent and C60 are revealed in the resonance Raman spectra of C60 by the appearance of bands corresponding to 11 modes that are Raman and/or IR inactive. These bands result mainly from solvent-induced rather than isotope-induced lowering o