R-matrix theory of reactive atom-diatom collisions

An analytical method of calculating the energy transfer in classical, collinear atom-diatom collisions, based on the use of power-series expansions in the parameter w7 (o is the frequency of the molecular vibrations, 7 is an effective coihsion time) is presented. This method is applicable also for c

A formulation offl-matrix theory based on analytic basis set expansions of the internal wavefunction is presented which lk several advantages over the more conventional approkh. Integral evaluation is simple even for dia:omic molecules, the R-matrix boundary condition is incorporated into the hxnil

We propose a procedure to describe three-dimensional atom-diatom collision processes in the framework of the vibron model. We present results in the limit of one-dimensional collisions.

The application of eikonai methods to electron-atom scattering is reviewed. After recalling the basic features of the eikonal approximation, we discuss the Glauber theory, the eikonal-Born series method, the eikonal optical model theory and the eikonal distorted wave approach. We also give a survey

We review past and present theoretical developments in the description of ionization processes in positron-atom collisions. Starting from an analysis that incorporates all the interactions in the final state on an equal footing and keeps an exact account of the few-body kinematics, we perform a crit