Abstract
Absolute quantum yields for primary H atom formation ( Φ H) were measured under collision-free conditions for the room-temperature gas-phase dissociation of acetylene (C 2H 2) after photoexcitation at 193.3 nm and at the H-atom Lyman-α wavelength (121.6 nm) by a pulsed laser photolysis (LP)–laser-induced fluorescence (LIF) `pump-and-probe' technique. Using HCl and CH 4 photolysis at 193.3 and 121.6 nm, respectively, as a reference, values of Φ H (193.3 nm)=0.94±0.12 and Φ H (121.6 nm)=1.04±0.16 were obtained which demonstrate that for both photolysis wavelengths the H+C 2H product channel dominates the primary C 2H 2 photochemistry.
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