Energy partitionning in charge transfer reactions at thermal energies

Charge-transfer reactions of Ar+ with CH,Cl,\_, (n= l-3) at thermal energy have been studied by using a flowing-afterglow apparatus coupled with a low pressure chamber. Dissociative charge-transfer leading to CH: (91 k 5%) CH&l+ (95 k 2%), and Ccl+ (69 f 3%) are major product channels for CH,Cl, CH#

The km&c energy released in near-thermal charge-transfer reactions of Ar\* and NC with NO, 0,. CO, H,O, N,O. CO, and NH, has been measured. The partitioning between kinetic and inlemal modes is found lo be very similar for mosl 01 the Ar+/N: pan-s. Tko hypotheses LO explain tis similarity are propos

The energy partitioning in hyperthermal O+ +HzO charge-transfer collisions is determined from the analysis of guided-ion beam time-of-flight measurements. The experimentally determined H,O+ laboratory velocity distributions exhibit a main band due to near-thermal ions and a weak channel due to cente

## Abstract The application of modern theories of energy transfer to unimolecular reactions taking place at very high temperatures is discussed. It is shown that the efficiency of energy transfer for both reactant–reactant and reactant–inert diluent collisions may be substantially smaller than the