Branching ratio for the production of I2Psol12) in the photodissociation of I2

The production of I('P,,\*) m the photolysls of CHzIz has been studled optoncoustlally at cvcilahon wrvelcngths hctwccn 365 5 and 247.5 nm Bands found at 32200 and 47000 cm-' corrchtc with I(\*Ps,~) whilst those at 34700 md 40100 cm-', which correhtc with I(2P1p), give fml 2P3p/2P1p ratios of 1.75 a

Resonance-enhanced photoionization has been used to follow S(3P,) in the photodissociation of CS, at 193 nm. The contributions from initial photodissociation and from S('D) relaxation have been resolved and give a (15 f 5)X yield of S('D). The possibility of secondary production of S(3P,) by CS phot

The H atom quantum yield ~b H and the average product translational energy were determined for the HNCO ---, H(2S) + NCO(X 21-I) photodissociation channel at room temperature for a photolysis wavelength of 193 nm. HNCO was photolyzed using an ArF excimer laser and nascent H atoms were detected by va

The inlrared emission of l\*(\*P1& aloms at 1315 pm has been observed m a fast-flow reactor from the renct~on of F atoms with iodine mokules. F atoms were produced either in an electronic discharge by dl-ation of a Iluorinakd compound or tn a mmbustor from rhc reaction of CA-F2 and Dz with helium di

Quantum welds for the produchon of I(5 'P,,,) atoms from the photolysls of ICN in the A state continuum are presented as a funchon of wavelength Evidence is presented for the e%stence of at least three electronic states givmg rise to the rbsorp-Qon spectra. Primary photophysical processes mvolved m

Excited iodine atoms :(\*PI/~) are formed by laser irradiation of C2FS I at 2950 A. The mczm radiative lifetime T of these metastsble atoms and their bimolecular rate constant k2 for deactivation in collisions with C2 F5 I were measured to be: T = 108 +-10 ms; k2 = (1.8 i 0.1) X 10-l' cm3/molec s. \