Full-dimensional quantum mechanical calculation of the rate constant for the H2+OH H2O+H reaction
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چکیده
The cumulative reaction probability (CRP) (the Boltzmann average of which is the thermal rate constant) has been calculated for the reaction H,+OH++HzO+H in its full (six) dimensionality for total angular momentum J=O. The calculation, which should be the (numerically) exact result for the assumed potential energy surface, was carried out by a direct procedure that avoids having to solve the complete state-to-state reactive scattering problem. Higher angular momenta (J> 0) were taken into account approximately to obtain the thermal rate constant k(T) over the range 300 < T < 700 K; the result is significantly larger than the experimental values (a factor of -4 at 300 K), indicating that a more accurate potential energy surface is needed in order to provide a quantitative description of this reaction.
منابع مشابه
Quantum mechanical calculations of the rate constant for the H2+OH H+H2O reaction: Full-dimensional results and comparison to reduced dimensionality models
The cumulative reaction probability is calculated for the H,+OH+H+H,O reaction in its full (six) dimensionality for total angular momentum J=O. The calculation, which should give the (numerically) exact result for the assumed potential energy surface, yields the cumulative reaction probability directly, without having to solve the complete state-to-state reactive scattering problem. Higher angu...
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