OH(A2Σ+ → X2∏) yield from photodissociation of H2O2 at 106–193 nm

Hydrogen atoms produced by photodissociation of H202 using 193 nm laser light have been observed for the first time. The H atoms are detected by VUV spectroscopy. The yield is 12 rt 1%. The H atoms are produced by a one-photon process.

The photofragmentation dynamics of Hz02 at 193 nm have been analyzed by probing the OH products by Doppler spectroscopy Using laser-induced fluorescence. The excess energy (Eav = 4 17 kJ/mol) appears mostly as translational motion of the fragments with ft = 0.84. No vibrational excitation was observ

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

## Abstract Photodissociation processes of H~2~O~2~ in the range 193–240 nm have been studied by pulsed laser photolysis and laser‐induced fluorescence detection of H atom fragments at 121.56 nm. The quantum yield values for H atom formation at 295 ± 2 K have been determined to be 0.20 ± 0.03, 0.03