Three-Dimensional Diabatic Potential Energy Surfaces of Thiophenol with Neural Networks |
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| Authors: | Chaofan Li Siting Hou Changjian Xie |
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| Affiliation: | Institute of Modern Physics,Northwest University,Xi'an 710127,China;Shaanxi Key Laboratory for Theoretical Physics Frontiers,Xi'an 710127,China |
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| Abstract: | Three-dimensional (3D) diabatic potential energy surfaces (PESs) of thiophenol involving the Sbegin{document}$_0$end{document}, and coupled begin{document}$^1$end{document}begin{document}$pipi^*$end{document} and begin{document}$^1$end{document}begin{document}$pisigma^*$end{document} states were constructed by a neural network approach. Specifically, the diabatization of the PESs for the begin{document}$^1$end{document}begin{document}$pipi^*$end{document} and begin{document}$^1pisigma^*$end{document} states was achieved by the fitting approach with neural networks, which was merely based on adiabatic energies but with the correct symmetry constraint on the off-diagonal term in the diabatic potential energy matrix. The root mean square errors (RMSEs) of the neural network fitting for all three states were found to be quite small (begin{document}$<$end{document}4 meV), which suggests the high accuracy of the neural network method. The computed low-lying energy levels of the Sbegin{document}$_0$end{document} state and lifetime of the 0begin{document}$^0$end{document} state of Sbegin{document}$_1$end{document} on the neural network PESs are found to be in good agreement with those from the earlier diabatic PESs, which validates the accuracy and reliability of the PESs fitted by the neural network approach. |
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| Keywords: | Diabatic potential energy surfaces Neural networks Photodissociation |
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