Title of Paper:Global diabatic potential energy surfaces and quantum dynamical studies for the Li(2p) + H-2(X-1 Sigma(+)(g)) -> LiH(X-1 Sigma(+)) + H reaction

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Date of Publication:2016-04-29

Journal:SCIENTIFIC REPORTS

Included Journals:SCIE、PubMed

Volume:6

Page Number:25083

ISSN No.:2045-2322

Abstract:The global diabatic potential energy surfaces which are correlated with the ground state 1A' and the excited state 2A' of the Li(2p) + H-2 reaction are presented in this study. The multi-reference configuration interaction method and large basis sets (aug-cc-pVQZ for H atom and cc-pwCVQZ for Li atom) were employed in the ab initio single-point energy calculations. The diabatic potential energies were generated by the diabatization scheme based on transition dipole moment operators. The neural network method was utilized to fit the matrix elements of the diabatic energy surfaces, and the root mean square errors were extremely small (3.69 meV for V-11(d), 5.34 meV for V-22(d) and 5.06 meV for V-12(d)). The topographical features of the diabatic potential energy surfaces were characterized and the surfaces were found to be sufficiently smooth for the dynamical calculation. The crossing seam of the conical intersections between the V-11(d) and V-22(d) surfaces were pinpointed. Based on this new analytical diabatic potential energy surfaces, time-dependent wave packet calculation were conducted to investigate the mechanism of the title reaction. At low collision energies, the product LiH molecule tends to forward scattering, while at high collision energies, the forward and backward scatterings exist simultaneously.