Production of electronically excited iodine atoms I(5p52P12) by collisional release in molecular I2

The rate of CoLlisional quenching or I(5p' \*P ,,$ by I2 has been determined u&g time-resolved atomic absorption spectroscopy following tunable laser photoiysis of molecular iodine as (3.6 + 0.3) X 10-l' cm3 mole&k-' s-l. Disaepancies between this and earlier results are discussed.

EIectroniUIlY excited iodine atoms, 1(5'P,,,), have been monitored using time xsolved atomic resmancc fluorescence. Rate data t'or quenching by C3Hs and CD4 ax presented.

The fraction of electronically excited iodine atoms, I(5 2P,/&, formed in the broadband flash photolysis of several alkyl iodides has been determined using time-resolved static absorption spectroscopy. By monitoring the temporal proftie of the ground state, I(5 \*Pa/z), following the photolytic puls

A method is described for the phot~le~c me~~ment of the time-resolved atomic absorption by electronically excited iodine atoms, 1(5'Prn), generated by pulsed irradiation-A kinetic investigation of the decay of these excited atoms yields a vaIlle for the quenching rate constant by mo?ecuku oxygen, th