Non-adiabatic effects in collinear reactive atom-molecule collisions

Exact and vibrational sudden approximation (VSA) transition probabilities for He+ HIZ, Be&, BeBr, and CO2 at 0.5 to 3.0 eV are calculated and compared. The agreement between the VSA and the exact results for the excitation of the symmetric stretch is excellent for HI2 (even for large changes in the

Classical trajectories are calculated on model surfaces designed to reproduce the reactive-unreactive bands found with the SShlK and Yates-Lester surfaces for the H + Hz system cmd other A f BC systems. The model surfaces are based on a rectiIinear reaction path, with a constant period of vibration,

An approlimatc approach is dcvelopcd to study the interfcrcncc of one-and twoquantum processes in collinear collisions of an atom and a harmonic oscillator. !n deriving an esplicit espression for vibrational transition probabilities, oncquantum processes arc trcatcd rigorously. while the contributio

It is shown that the generator coordinate approximation introduces non-adiabatic effects of the correct sign (ener,g lowerinrz) and size (Born-Oppenheimer analysis)\_ The theoretical expression applied to diatomic molecules qualitatively explains the observed trends of non-adiabatic energy correctio