Abstract
Molecular beam scattering (velocity-analysis) experiments have been carried out for the now-classic “rebound” reaction K + CH3I → KI + CH3 over a range of relative translational energies ET from 0.077 to 0.16 eV. Detailed centre-of-mass differential reaction cross sections have thereby been obtained (at three energies), showing the expected predominant “back-scattering” of the fast-recoiling KI product. There is very little coupling between the angular and recoil energy distributions. The differential solid-angle cross section peaks at 180°(with a half-angle close to 90°) with shape essentially independent of ET over the range of the experiments. The distribution of final translational energy ET′ is rather sharp, showing a peak at about 60 % of the total available energy. The average recoil energy ET′ increases with ET.
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