A quantum mechanical investigation of vibrational energy transfer in O(3P) + CO2 collisions

The cncrgy -rransfcr process, H&P,) f CO(O) -Hg('S~)+CO(v),hnsbccn nudisd by tie mexurcmen~oCthcLR flubrescerlce of CO. urine modulafed H&resonant radiation to excite Hg atoms. The cross section for each final vibrationallevelof v = 2 to 9 is 0.045, 0.091, 0.15, 0.17, 0.15, 0.065, 0.013, and 0.006 A

Diffcrential cross sections of thc process Na\*(3 \*P) + M(u = 0) Na(3S) + M(u') have been mcasured for several molecules: Hz, D2, Nz, 02, CO, COz, NzO, Cz H4. WC observe two different types of enerpy spectra. One of them displays il typicalIy non-resonant elcctronic to vibrational energy transfer a

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

A many-body approach to motecuhr collisions is applied to the L~icuhtion of vibrational-rotational transition probtlbilities of ionsstztttered from linear triztomic molecules\_ The system Li+-CO2 has been chosen in order to comprtre the theoretical predictions with e..perimental resultr Good amment