Classical theory of vibration energy transfer in collinear collisions

Values of average energy transferred, (AC). and average energy loss, (h),, per collision were calculated from classical trajectories for collinear A\*+ M collisions in which A2 is highly vibrationally excited. Results were compared with those from the singleencounter impulsive collision model, from

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

Vibration-t~v~ration energy transfer rates for collision between two CO molecules arc calculated. Rcsul~ obtained are compared with recent experiments and theoretical valtys. it is pointed out that none of the existing wIcuIatians gives a complete clccount of the available experimental data.

WC have appl~tl Pcchukas aEd Mclafterty'i tclt for the cxactnoss of classical transItion state theory (TST) to t[lc cnllrncar subsurface of Porter and Karplus' H3 hypcrsurface and have detcrmmcd that TS r is c\act to at lca~t o.0592131 cv above the saddle point energy.