Experimental and Quantum Dynamical Study on an Asymmetric Insertion Reaction: State-to-State Dynamics of $O ({}^{1}D) + HD ({}^{1}Σ_{g}^{+}, v^{'} = 0, j^{'} = 0) \to OH ({}^{2}Π, v^{''}, N^{''}) + D ({}^{2}S)$

16 March 2006

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 96 (10), 103202
https://doi.org/10.1103/physrevlett.96.103202

Abstract

Quantum-state-resolved differential cross sections of the

O ({}^{1}D) + HD \to OH + D

reaction at the collision energy of

7.11 kJ / mol

has been determined experimentally and theoretically. The results of the time-dependent wave-packet calculations are overall in good agreement with the crossed beam scattering data, providing a benchmark example of an asymmetric insertion reaction at the state-to-state scattering level. The good agreement between experiment and theory suggests that the underlying ground potential energy surface is generally correct and that the nonadiabatic effect involving the electronic excited pathway is apparently small in this system.

Keywords

This publication has 23 references indexed in Scilit:

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Cited by 57 articles

Experimental and Quantum Dynamical Study on an Asymmetric Insertion Reaction: State-to-State Dynamics ofO(D1)+HD(Σg+1,v′=0,j′=0)→OH(Π2,v′′,N′′)+D(S2)

Abstract

Keywords

Experimental and Quantum Dynamical Study on an Asymmetric Insertion Reaction: State-to-State Dynamics of $O ({}^{1}D) + HD ({}^{1}Σ_{g}^{+}, v^{'} = 0, j^{'} = 0) \to OH ({}^{2}Π, v^{''}, N^{''}) + D ({}^{2}S)$