Recalibration of a single-valued double many-body expansion potential energy surface for ground-state hydroperoxy and dynamics calculations for the oxygen atom + hydroxyl .fwdarw. oxygen + hydrogen atom reaction
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Abstract
We report a new single-valued potential energy surface for the ground state of H02 from the double many-body expansion \n(DMBE) method. This new surface conforms with the three-body energy of recent ab initio CAS SCF/CCI calculations \nsemiempirically corrected by the DMBE-SEC method and reproduces the most accurate estimates of the experimental dissociation \nenergy, equilibrium geometry, and quadratic force constants for the hydroperoxyl radical. Using this new H02 (DMBE \nIV) potential energy function, exploratory dynamics calculations of the 0 + OH - O2 + PI reaction have also been carried \nout by the quasiclassical trajectory method. Thermal rate coefficients are reported for T = 250, 1250, and 2250 K that \nare shown to be in good agreement with the best reported measurements
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