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How Good Is the Vibronic Hamiltonian Repetition Approach for Long-Time Nonadiabatic Molecular Dynamics?

Wei Li, Alexey V. Akimov

2022The Journal of Physical Chemistry Letters16 citationsDOI

Abstract

Multiple applied studies of slow nonadiabatic processes in nanoscale and condensed matter systems have adopted the "repetition" approximation in which long trajectories for such simulations are obtained by concatenating shorter trajectories, directly available from ab initio calculations, many times. Here, we comprehensively assess this approximation using model Hamiltonians with parameters covering a wide range of regimes. We find that state transition time scales may strongly depend on the length of the repeated data, although the convergence is not monotonic and may be slow. The repetition approach may under- or overestimate the time scales by a factor of ≤7-8, does not directly depend on the dispersion of energy gap and nonadiabatic coupling (NAC) frequencies, but may depend on the magnitude of the NACs. We suggest that the repetition-based nonadiabatic dynamics may be inaccurate in simulations with very small NACs, where intrinsic transition times are on the order of ≥100 ps.

Topics & Concepts

Hamiltonian (control theory)Vibronic couplingStatistical physicsMonotonic functionMolecular dynamicsAb initioRepetition (rhetorical device)PhysicsAb initio quantum chemistry methodsRange (aeronautics)Potential energyChemistryQuantum mechanicsMaterials scienceExcited stateMathematicsMoleculeMathematical analysisMathematical optimizationLinguisticsPhilosophyComposite materialSpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesQuantum, superfluid, helium dynamics
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