Exact-factorization-based surface-hopping without velocity adjustment
Chemical Physics
2024-01-17 v1
Abstract
While surface-hopping has emerged as a powerful method to simulate non-adiabatic dynamics in large molecules, the ad hoc nature of the necessary velocity adjustments and decoherence corrections in the algorithm somewhat reduces its reliability. Here we propose a new scheme that eliminates these aspects, by combining the nuclear equation from the quantum trajectory surface-hopping approach with the electronic equation derived from the exact factorization approach. The resulting method, denoted QTSH-XF, places surface-hopping on a firmer ground and is shown to successfully capture dynamics in Tully models and in a linear vibronic coupling model of the photo-excited uracil cation.
Cite
@article{arxiv.2401.06878,
title = {Exact-factorization-based surface-hopping without velocity adjustment},
author = {Lucien Dupuy and Anton Rikus and Neepa T. Maitra},
journal= {arXiv preprint arXiv:2401.06878},
year = {2024}
}