Electronic energy transfer from Cd(53P1 to Popop vapor

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

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

Pulsed infrared laser irradiation was used to excite pentafluorobenzene (PFB) in mixtures with helium, argon and water vapor. Measurements of the rates of energy transfer were made as a function of the initial laser excitation energy, total pressure, and composition of the gas mixture using the Hg t

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

The vibrational distribution of CO produced from the electronioto-vibrational energy transfer reactlon N3(3 'PI + CO(X 1 C+, u = 0) 4 Na(3 'S) + CO(X \* Z+, L) Q 8) has been determined by means of Infrared resonance absorption measurements employing a CIV CO laser. A flash-lamp-pumped dye laser is u