Mixed quantum-classical study of nonadiabatic dynamics in the O( ³p2,1,0,¹d2) + h2 reaction

Authors

Bin Li, Dalian Institute of Chemical Physics Chinese Academy of Sciences
Ke Li Han, Dalian Institute of Chemical Physics Chinese Academy of Sciences

Document Type

Article

Publication Date

9-24-2009

Abstract

An investigation of the nonadiabatic dynamics for the O(3P 2,1,0,1D2) + H2(v = 0,j = 0) reaction is reported using the quantum-classical trajectory method, namely, the coherent switching with decay of mixing (CSDM) theory. The spin-orbit-induced intersystem crossing effects are included by using multiple electronic potential energy surfaces and spin-orbit couplings. The cross sections calculated by the CSDM method are compared with those of a previous exact quantum study, which uses the same potential matrix. The product rotations polarization in nonadiabatic dynamics, including the joint distributions of the angles between the reactant velocity, product velocity, and rotations angular momentum vectors, is presented and compared with the adiabatic results, as well as the vibrations distributions of the products. The influence of spin-orbit coupling is discussed. © 2009 American Chemical Society.

Publication Source (Journal or Book title)

Journal of Physical Chemistry A

First Page

10189

Last Page

10195

Recommended Citation

Li, B., & Han, K. (2009). Mixed quantum-classical study of nonadiabatic dynamics in the O( ³p2,1,0,¹d2) + h2 reaction. Journal of Physical Chemistry A, 113 (38), 10189-10195. https://doi.org/10.1021/jp904727d