用于凝聚相体系的含Kohn-Sham ΔSCF的轨迹表面跳跃非绝热分子动力学

Trajectory Surface Hopping Nonadiabatic Molecular Dynamics with Kohn-Sham ΔSCF for Condensed-Phase Systems.

作者信息

Mališ Momir, Luber Sandra

机构信息

University of Zurich, Department of Chemistry, Winterthurerstrasse 190, CH-8057 Zürich, Switzerland.

出版信息

J Chem Theory Comput. 2020 Jul 14;16(7):4071-4086. doi: 10.1021/acs.jctc.0c00372. Epub 2020 Jun 30.

DOI:10.1021/acs.jctc.0c00372

PMID:32602729

Abstract

We present an efficient approach for surface hopping-based nonadiabatic dynamics in the condensed phase. For the systems studied, a restricted Kohn-Sham orbital formulation of the delta self-consistent field (ΔSCF) method was used for efficient calculation of excited electronic states. Time-dependent density functional theory (DFT) is applied to aid excited-state SCF convergence and provide guess electronic state densities. Aside from that the Landau-Zener procedure simplifies the surface hopping between electronic states. By utilizing the combined Gaussian and plane waves approach with periodic boundary conditions the method is easily applicable to full atomistic DFT simulations of condensed-phase systems and was used to study the nonradiative deactivation mechanism of photoexcited diimide in water solution.

摘要

我们提出了一种用于凝聚相基于表面跳跃的非绝热动力学的有效方法。对于所研究的系统，采用了δ自洽场（ΔSCF）方法的受限Kohn-Sham轨道公式来高效计算激发电子态。应用含时密度泛函理论（DFT）来辅助激发态SCF收敛并提供猜测的电子态密度。除此之外，Landau-Zener过程简化了电子态之间的表面跳跃。通过利用结合高斯和平面波方法以及周期性边界条件，该方法易于应用于凝聚相系统的全原子DFT模拟，并用于研究光激发二酰亚胺在水溶液中的非辐射失活机制。

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用于凝聚相体系的含Kohn-Sham ΔSCF的轨迹表面跳跃非绝热分子动力学

Trajectory Surface Hopping Nonadiabatic Molecular Dynamics with Kohn-Sham ΔSCF for Condensed-Phase Systems.

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