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Quantum dynamics of proton transfer in the H3O+H2O complex

✍ Scribed by A. Lami; G. Villani

Publisher
Elsevier Science
Year
1995
Tongue
English
Weight
500 KB
Volume
238
Category
Article
ISSN
0009-2614

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✦ Synopsis

We have studied the quantum dynamics of proton transfer in the hydrogen-bonded complex HaOf-Ha0 using a previously computed three-dimensional potential energy surface. The two coordinates considered are the distance of the hydrogen atom from the O-O midpoint and the O-O distance, for a linear O-H-O geometry. It is shown that a symmetry-breaking external electric field may localize the proton in the region near one of the two oxygen atoms. This initial wave-packet is propagated in time and the probability that the proton could be assigned to one oxygen atom is partitioned in two contributions, arising from the fluxes along the reaction path and along other paths. It is shown that, depending on the strength of the electric field, the two contributions may cooperate or become antagonists.

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## Abstract To investigate the extent of nonadiabatic effects in the title reaction, quasi‐classical trajectory and nonadiabatic quantum scattering as well as the nonadiabatic quantum‐classical trajectory calculations were performed on the accurate __ab initio__ benchmark potential energy surfaces