Approximate solution of vibration-vibration energy transfer probabilities

An expression for the probability of vibration-rotation energy transfer for hydrogen halides was for- mulated by solving the rotational equation of motion. The collision model consists of a rotation-averaged oscillator and a rigid rotator, in which two hydrogen atoms interact strongly in close-in co

## 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

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

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-'.