Atom-diatom scattering in the presence of reactive channels

## Abstract A field‐theoretical formalism is applied to the problem of atom–diatom scattering, in the presence of “intermediate” reactive channels. This leads to an integral equation formulation for elastic processes and to a numerical quadrature problem for inelastic vibro–rotational transitions.

## Abstract The kernel of the distorted‐wave Born approximation (DWBA) transition amplitude will be explored with attention to the atom–diatomic molecule reactive scattering process of __A__ + __BC__ → __AB__ + __C__. Our study of the kernel reveals valuable intrinsic properties regarding the state

An approximate method of Sakimoto and Onda for deriving the Smatrix elements for dissociative collisions in collinear atom-diatom reactive systems, which provided accurate total dissociation probabilities, has been tested further. To do this, kinetic energy distributions of atomic products have been

Resonances in slow molecular collisions are demonstrated by exact numerical solution of the closecoupled'equations for r&&ion4 excitation. including closed channels. The breakdown of the adiabatic approximation is exhibited. Resonance energies can be essentially predicte-a by a "best local" approxim