Electronic-to-vibrational energy transfer from Br (42P12 to HF

Time-resolved infrared fluorescence observations of the Bf (4 'P,,,) spin-orbit excited state and the SO2 symmetric (v,) and antisymmetric (vl) stretching modes have been obtained following 532 nm laser photolysis of Br2/S02 and IBr/S02 mixtures. The total Bf quenching rate coefkient by SO\* was det

Collisional transfer of electronic energy from spin-orbit excited chlorine atoms, Cl\* [ ~P'(~P,,~) ] (E=882 cm-'), to vibrational energy in SOz has been observed by time-resolved infrared fluorescence from the fundamental SOI stretching levels. The rate constant ( k la) for Cl\* quenching by SO2 at

An optoacoustzc technique IS shown to gve accurate results for the extent of viirationai excltatton m electrornc-viirationai energy Qansfer. The system studied IS I(2P,,2)-Hz, and it IS shown that w&m experunental error the transfer 1s exctusively to the Ha@" = 2) viirational state. Unhke other meth

Energy transfer from optically pumped metastable Mg('P) atoms to Sm has been observed in a slow-flow, high-temperature refractory vessel. The rate constant for excitation transfer has been measured to be (I .6 k 0.5) X 10m9 cm' s-l. The relative densities of the excitedsm states in the presence of A