A detailed three-dimensional quantum study of the Li+FH reaction
- 15 January 1995
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 102 (3) , 1238-1250
- https://doi.org/10.1063/1.468911
Abstract
Accurate quantum reactive scattering calculations in the full three-dimensional physical space have been carried out for the Li+FH reaction at zero total angular momentum using the adiabatically adjusting principal axis of inertia hyperspherical coordinate formalism. The procedures for fitting the potential energy surface, calculating the surface functions, and propagating the solutions in a coupled channel treatment are given and discussed. Features of the resulting reactive probability plots are analyzed, and simple explanations of a number of the quantum resonance and oscillatory features are found.Keywords
This publication has 53 references indexed in Scilit:
- Evidence for the deep potential well of Li+HF from backward glory scatteringThe Journal of Chemical Physics, 1993
- Huge steric effect in the reaction Li+HF(v=1, j=1)→LiF+HThe Journal of Chemical Physics, 1991
- Quantum reactive scattering in three dimensions using hyperspherical (APH) coordinates. III. Small θ behavior and corrigendaThe Journal of Chemical Physics, 1989
- Improved infinite order sudden cross sections for the Li+HF reactionThe Journal of Chemical Physics, 1988
- Quantum dynamics of the three-dimensional Li+HF reaction: The bending corrected rotating nonlinear modelThe Journal of Chemical Physics, 1987
- Direct versus indirect microscopic mechanisms in the Li + HF reactionMolecular Physics, 1986
- An improvement of the Li+HF PES based on a 3D quasiclassical trajectory testThe Journal of Chemical Physics, 1986
- A quantum mechanical study of the collinear Li+FH reactionThe Journal of Chemical Physics, 1981
- Study of the reaction dynamics of Li+HF, HCl by the crossed molecular beams methodThe Journal of Chemical Physics, 1980
- New numerical methods applied to solving the one-dimensional eigenvalue problemThe Journal of Chemical Physics, 1977