H + NO 2 Channels in the Photodissociation of HONO at 193.3 nm †

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

We report the rotational and vibrational quantum state distributions of the CN (X 2,~ +) product formed in the 193 nm photolysis of acrylonitrile (vinyl cyanide). The CN product is formed in v = 0 and v = I with relative populations of 0.86 and 0.14, respectively. The rotational distributions in bot

The 193 nm photodissociation of the isotopomers SOz, SO: and SOO' (with O\*= '\*O) was studied by high-resolution photofragment translational spectroscopy. The translational energy distributions P(&) of the fragment pairs SOtO, SO'tff, SOt(T and SO\*+0 were determined from systematic analysis of the

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 rotational alignment As) of the NO(A) fragments in the photodissociation of the NO dimer at 193 nm has been determined based on the polarization response of the laser-induced fluorescence in the E %+-A 'Z+ transition. The observed alignment Ah\*) is negative, with increasing magnitude in higher