Characterization of excited electronic states of naphthalene by resonance Raman and hyper-Raman scattering

Ti~resolvcd resonance-enhanced RamEn spcclnlm of a photccbemical IlalXicnt of naphlhalcoe. assodakd with broad cluztromc absorption in tbc = 425 nm region, is reported. 'Ihe &man signals at 1570,1431,1415 and 1388 cm-', which decay 81. nanosecond times. arc awrribcd to this species. This trarkent is

## Abstract Raman scattering is used to investigate the electronic excited‐states of alexandrite at low temperature (13 K). The Raman spectra of Cr^3+^ ions in two non‐equivalent types of crystal field sites, one having mirror symmetry __C__~s~ the other having inversion symmetry __C__~1~, are repo

Polarized and depolarized continuum resonance Raman spectra of isotopically pure 1\*713SC1 vapor have been recorded with excitation from the green to the blue spectral region. The spectra have been simulated, applying time-dependent and time-independent second-order perturbation theory. This togethe

We report the first observation or the resonanoeenhanced triplet&ate Raman scattering in a molecular crystal. Specifically, the resonnnce+nhanccd Raman ratterins from the T1 s&te of naphthalene in the environment of the n~phthalene:2(1,4~~od~te~~uoroben~ne~ crystalline complex is observed by excitin