Crossed beam studies of the O(P-3,D-1)+CH3I reactions: Direct evidence of intersystem crossing

The angular and velocity distributions of the IO product from the reactions O(3P,1D) ]CH have been obtained in crossed beam experiments with a rotating mass 3I spectrometer detector at collision energies of 55.2 and 64.0 kJ mol~1. The center of mass product angular and translational energy distributions for both the O(3P) and O(1D) reactions have been derived, and the e†ect of electronic excitation and the role of intersystem crossing (ISC) assessed. The O(3P) reaction proceeds, with comparable cross-section, both via a direct mechanism on the triplet potential energy surface with rebound dynamics and via a long-lived complex mechanism following ISC from the triplet to the singlet surface. The O(1D) reaction proceeds on the singlet surface via formation of a complex that lives about one rotational period and also, with comparable cross-section, via direct rebound dynamics following a nearly collinear OÈIÈCH approach geometry. 3 ISC from the triplet to the singlet surface is attributed to the presence of the heavy halogen atom and occurs for bent geometry. These Ðndings are corroborated by recent theoretical calculations on the stationary points of the potential energy surfaces for the system. Calculations based on phase space theory, which assumes conservation of energy and angular momentum and takes into account the various degrees of freedom involved, have been performed; the product angular and translational energy distributions derived for the O(3P) reaction proceeding via ISC and long-lived collision complex formation are in very good agreement with the experimental quantities.