Energy distributions from decomposition of a complex H2O→OH+H on a simplified potential energy surface, as a function of total angular momentum: Comparison between classical trajectories and an RRKM-type statistical simulation
- 1 July 1989
- journal article
- Published by Elsevier in Chemical Physics
- Vol. 134 (2-3) , 355-373
- https://doi.org/10.1016/0301-0104(89)87168-x
Abstract
No abstract availableKeywords
This publication has 35 references indexed in Scilit:
- Rate constants for reactions O(3P) + X2 → OX + X (X = Br, I) determined by an RRKM-type statistical algorithm employing Monte Carlo simulationChemical Physics, 1987
- Monte Carlo simulation of RRKM unimolecular decomposition in molecular beam experiments. V. product ox angular and energy distributions from O(3P)+X2 (X = Br, I)Chemical Physics, 1987
- Avoided scattering along the relative velocity vector: importance for crossed molecular beam experiments involving long-lived collision complexesThe Journal of Physical Chemistry, 1986
- Monte Carlo simulation of O(1D) + H2 and O(1D) + HCl — rotational excitation of product OH radicalsChemical Physics, 1985
- Monte carlo simulation of RRKM unimolecular decomposition in molecular beam experiments. IV. Product OH angular and velocity distributions from O(1D)+H2Chemical Physics, 1985
- Monte Carlo simulation of RRKM unimolecular decomposition in molecular beam experiments. III. Application to angular distributions and branching fractions for the system K + CsFChemical Physics, 1984
- UNIMOL: A program for Monte Carlo simulation of RRKM unimolecular decomposition in molecular beam experimentsComputer Physics Communications, 1982
- Monte Carlo simulation of RRKM unimolecular decomposition in molecular beam experiments. II. Application to angular distributions and absolute cross sections for the system K+RbClChemical Physics, 1981
- Monte Carlo simulation of RRKM unimolecular decomposition in molecular beam experiments. I. Basic considerations and calculational procedureChemical Physics, 1981
- Exchange reactions of alkali atoms with alkali halides: a collision complex mechanismDiscussions of the Faraday Society, 1967