Vibration-vibration energy transfer in gaseous HBr

The vibration-vibration ene=y transfer of HCI gas initially excited to the tirst vibrational level is measured by monitoring the fluorescence of the 2-1 transition. The rate constant for the process is found to be 0.9 x IO5 secwl tom-'.

## Previous works have reported vibration-vibration and vibration-translation transfer rates in CHJF and CHg F-X mixtures. fn this letter we report the study of the fast V-V transfer rate populating the 3~3, u1 and ~4 states of CHJF. GaseousCHsF was initially exited to the ~3 state by a TEA CO2 la

The rate of vibrational energy transfer from CHsBr&) to HCN&) has been determined to be 75 f 25 rns-' Torr-I. The factors which determine the relative importance of intermolecular vibrational energy transfer pathways will be discuswd.

ti general formula of the probability of vibrational transitions in diatomic molecules is formulated with specific consideration of vibration-vibration energy transfer for nonresonant cases. An application to HZ-H2 collisions shows an excellent agreement of the present formulation with exact quantum

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.