Coupled Equations and the Minimum Principle for Collisions of an Atom and a Diatomic Molecule, Including Rearrangements

1 January 1969

journal article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 50 (1) , 407-418
https://doi.org/10.1063/1.1670812

Abstract

The collision of an atom with a diatomic molecule is treated by a coupled-channel expansion augmented by a finite number of square-integrable basis functions. The method is, in principle, capable of essentially exact results if the total energy is less than that necessary for the existence of three free atoms and should be practical for light systems at low energies. The coupled equations which must be solved to apply the minimum principle are obtained and the direct and exchange interaction matrices are given in reduced form. The case that two, or all three, of the atoms are identical simplifies the equations, and the cross-section formulas are given for arbitrary spin of the indentical nuclei.

Keywords

This publication has 7 references indexed in Scilit:

Distorted-Wave Theory for Collisions of an Atom and a Diatomic Molecule
The Journal of Chemical Physics, 1968
Correlation in the elastic and inelastic S-wave scattering of electrons by H and He⁺
Proceedings of the Physical Society, 1966
Variational Upper and Lower Bounds for Multichannel Scattering
Physical Review B, 1964
Coupled equations for rearrangement collisions
Annals of Physics, 1964
Bounds on Multichannel Scattering Parameters
Physical Review B, 1964
Variational calculations of scattering
Annals of Physics, 1961
The theory of scattering by a rigid rotator
Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1960