4.7 Article

Trajectory surface hopping molecular dynamics simulation by spin-flip time-dependent density functional theory

Journal

JOURNAL OF CHEMICAL PHYSICS
Volume 150, Issue 20, Pages -

Publisher

AIP Publishing
DOI: 10.1063/1.5096217

Keywords

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Funding

  1. Next-Generation Supercomputer project (the K computer project)
  2. FLAGSHIP2020 within priority study 5 (development of new fundamental technologies for high-efficiency energy creation, conversion/storage, and use) of MEXT, Japan

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This paper presents the nonadiabatic molecular dynamics simulation combined with the spin-flip time-dependent density functional theory (SF-TDDFT). In contrast to the conventional single-reference electronic structure methods, which have difficulty in describing the S-0/S-1 conical intersections, the SF-TDDFT can yield the correct topology of crossing points. Thus, one expects that the method can take naturally into account the S-1 -> S-0 nonadiabatic transitions. We adopt Tully's fewest switch surface hopping algorithm by introducing the analytic SF-TDDFT nonadiabatic coupling vector. We apply the proposed method to the photoisomerization reactions of E-azomethane, methanimine, and ethene molecules and reproduce the results of previous studies based on the multireference methods. The proposed approach overcomes the ad hoc treatment of S-1 -> S-0 transition at the single- reference calculation level and affords both the dynamics on the S-1 state and the recovery of the S-0 state with modest computational costs. Published under license by AlP Publishing.

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