Abstract
The dynamics of the H + NH→-N + H2, reaction has been investigated by means of the 3-atom model quasiclassical trajectory approach. The LEPS potential energy surface is employed in the study, which is obtained from theab initio results and has an early saddle point in the minimum energy path. The results indicate that the reaction product H2, is mainly scattered backward, and the reaction is found to occur via a direct channel. The product H2, is in a cold excitation of rotational state, but has a hot vibrational excitation. Based on the potential surface and the trajectory analysis, the reaction mechanism has been explained successfully.
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