Product energy distributions from the 193 nm photodissociation of NH3

The rotational state populations of HCI ( u" = 0, 1, and 2) and the tine structure population of Cl( 'P,) produced in the UV photodissociation of vinyl chloride were measured in a molecular beam pump-and-probe experiment. Boltzmann-like distributions were observed for the rotational populations in v

An analysis of the primary photodissociation products resulting fro-m the 193 nm photolysis of HSCO is reported\_ The major fngments are NH(a IA, u' = 0) and CO(X '~3. Reaction of NH(a 'A) with 02 and with HIiCO produces only nonemissive products. A rapid E-E, V energy transfer occurs for collisions

The photodissociation of POCI 3 has been investigated using the unfocused radiation of an excimer operating at 193 nm. PO, P and C1 radicals were probed by resonance-enhanced multiphoton ionization, and signal intensities were studied as a function of excimer laser power. The probe laser was found t

Photodissociation of H$ has been studied at 193.3 nm using H atom photofragment-translational speclroscopy with massspectrometric detection. H t HS( v) product branching ratios are reported which are not in quantitative agreement with other recent experimental results. Secondary photodissociation of

The photolysis of dicyanoacetylenc (CaiUz) at 160 run produces CN(X \* 23 mdlcals which arc rotationauy and vibra tionally cxcitcd. Laser-induced fh~orcscence of the CN(X) shows that the radicak are forrned primarily in the IJ = 0 dnd u = 1 vlbrationai levels with a relatlvc population ratio of No: