Communication: Proper treatment of classically forbidden electronic transitions significantly improves detailed balance in surface hopping

Sifain Andrew E.; Wang Linjun; Prezhdo Oleg V.

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Communication: Proper treatment of classically forbidden electronic transitions significantly improves detailed balance in surface hopping

机译：交流：妥善处理经典禁止的电子跃迁可显着改善表面跳变的详细平衡

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Surface hopping is the most popular method for nonadiabatic molecular dynamics. Many have reported that it does not rigorously attain detailed balance at thermal equilibrium, but does so approximately. We show that convergence to the Boltzmann populations is significantly improved when the nuclear velocity is reversed after a classically forbidden hop. The proposed prescription significantly reduces the total number of classically forbidden hops encountered along a trajectory, suggesting that some randomization in nuclear velocity is needed when classically forbidden hops constitute a large fraction of attempted hops. Our results are verified computationally using two-and three-level quantum subsystems, coupled to a classical bath undergoing Langevin dynamics. Published by AIP Publishing.

机译：表面跳变是非绝热分子动力学最流行的方法。许多人报告说，它在热平衡时并未严格达到详细的平衡，但实际上达到了平衡。我们表明，经典禁止跳跃后的核速度逆转时，玻尔兹曼种群的收敛显着改善。拟议的处方大大减少了沿轨迹遇到的经典禁酒花的总数，这表明当经典禁酒花构成尝试啤酒花的很大一部分时，需要对核速度进行一些随机化处理。我们的结果使用两级和三级量子子系统进行了计算验证，并与经过Langevin动力学的经典浴耦合。由AIP Publishing发布。

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《The Journal of Chemical Physics》 |2016年第21期|共5页
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Sifain Andrew E.; Wang Linjun; Prezhdo Oleg V.;
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1. Communication: Proper treatment of classically forbidden electronic transitions significantly improves detailed balance in surface hopping [J] . Sifain Andrew E., Wang Linjun, Prezhdo Oleg V. The Journal of Chemical Physics . 2016,第21期

机译：交流：妥善处理经典禁止的电子跃迁可显着改善表面跳变的详细平衡
2. Improved treatment of momentum at classically forbidden electronic transitions in trajectory surface hopping calculations [J] . Jasper AW., Truhlar DG. Chemical Physics Letters . 2003,第1a2期

机译：轨迹表面跳变计算中经典禁止电子跃迁处动量的改进处理
3. The treatment of classically forbidden electronic transitions in semiclassical trajectory surface hopping calculations [J] . Ahren W. Jasper, Michael D. Hack, Donald G. Truhlar The Journal of Chemical Physics . 2001,第4期

机译：半经典轨迹表面跳变计算中经典禁止电子跃迁的处理
4. The electronic interaction between vertically coupled Stranski-Krastanov and Submonolayer quantum dots: a detailed investigation of carrier transitions and correlation with improved NIR energy conversion efficiency [C] . Debabrata Das, Samesta Samesta, Debiprasad Panda, Conference on Physics, Simulation, and Photonic Engineering of Photovoltaic Devices . 2021

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7. Detailed balance, internal consistency, and energy conservation in fragment orbital-based surface hopping [O] . Antoine Carof, Samuele Giannini, Jochen Blumberger 2017

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Communication: Proper treatment of classically forbidden electronic transitions significantly improves detailed balance in surface hopping

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