The fine structure of O2(B 3Σ−u)

Collisional processes, which influence quantitative laser-induced fluorescence (LIF) measurements involving the B 3"Y u state of molecular oxygen, were investigated. Since the B state is strongly predissociating, these processes are thought to be important only at higher pressures. However, we found

Using the single-photon time correlation sxtetf'od, we have determined the lifetime of the Sz (B 3X3) state from the decay rate of the fluorescence at 370 nm. A lifetime of 45.0 t 0.6 n5 was measured, and the cross section for fluorescence quenching by Sz as found to be 8J -3 t 4.7 A\*. A slight dep

A fast beam photofragment translational spectroscopy study of the predissociation of the O2 B %; state is presented. A 5 keV beam of vibrationally excited O2 X 'Z:; is prepared via photodetachment of OF. The B 'Z; (v'= 7) +X 'C, (~"=4) transition of the Schumann-Runge band is then excited, resulting

\(\mathrm{S}_{2}\) 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