Matrix effect on the linewidth of the 3B2u+ - 3B1g− absorption spectrum of naphthalene

The trIplet absorption spectra of pyrazme414 and da III the vapour phase have been remeasured under condltlons which allowed for accurate deternunatlon of transition mtensities No mtrmsic isotope effect on the mtensmes was noted and, III contrast to the smglet absorption spectrum, the big mode qoa I

By flash photolysis using a pulsed laser, we have examined the following Qttramolecular processes occurring from the lowest excited singlet state of naphthalene in cycloheale at room temperature: fluorescence lifetime, excited singlet-singlet absorption and intersystem crossing kinetics.

Tunable UV lasers were used to study the resonant Raman effect near the origin of the 3200 A band of crystalline naphthalene at low temperatures. It was found that with the excitation frequency off tuned by about 20 cm-' beLow the O-O of Sr , the Raman spectra are drastically different from the regu

The importance of kinematic perturbations on the two-photon spectrum of benzene corresponding to the 'Bz, 6 'A,, transition is demonstrated by the spectrum of s-benzene-d3 iy in S-C6H3D3-pg, absent in the C&e spectrum (where it is ezg) appears strong-

\(\mathrm{S}_{2}\) was generated by photodissociation of \(\mathrm{S}_{2} \mathrm{Cl}_{2}\) and the \(B^{3} \Sigma_{u}^{-}\)state was investigated for \(v^{\prime}=\) \(0 . .8\) by laser excitation spectroscopy from the ground state. Bands were detected and assigned up to rotational levels \(N^{\pri