Marit R. Fiechter, Johan E. Runeson, Joseph E. Lawrence and Jeremy O. Richardson*,
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引用次数: 3
Abstract
Recent experiments in polariton chemistry have demonstrated that reaction rates can be modified by vibrational strong coupling to an optical cavity mode. Importantly, this modification occurs only when the frequency of the cavity mode is tuned to closely match a molecular vibrational frequency. This sharp resonance behavior has proved to be difficult to capture theoretically. Only recently did Lindoy et al. [Nat. Commun.2023, 14, 273337173299] report the first instance of a sharp resonant effect in the cavity-modified rate simulated in a model system using exact quantum dynamics. We investigate the same model system with a different method, ring-polymer molecular dynamics (RPMD), which captures quantum statistics but treats dynamics classically. We find that RPMD does not reproduce this sharp resonant feature at the well frequency, and we discuss the implications of this finding for future studies of vibrational polariton chemistry.
最近的极化化学实验表明,通过与光腔模式的振动强耦合可以改变反应速率。重要的是,只有当腔模式的频率被调谐到与分子振动频率密切匹配时,这种修饰才会发生。这种尖锐的共振行为已被证明是难以从理论上捕获的。直到最近,Lindoy等人[Nat. common . 2023,14,2733]才报道了在使用精确量子动力学的模型系统中模拟的腔修正速率中出现尖锐共振效应的第一个实例。我们用一种不同的方法来研究相同的模型系统,环形聚合物分子动力学(RPMD),它捕获量子统计,但经典地处理动力学。我们发现RPMD在井频下不能重现这种尖锐的共振特征,并讨论了这一发现对未来振动极化化学研究的意义。
期刊介绍:
The Journal of Physical Chemistry (JPC) Letters is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, chemical physicists, physicists, material scientists, and engineers. An important criterion for acceptance is that the paper reports a significant scientific advance and/or physical insight such that rapid publication is essential. Two issues of JPC Letters are published each month.
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