Impact of Nuclear Motion on Light-Induced Bimolecular Interaction Dynamics

IF 11.6 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
Menghang Shi, Hao Huang, Chenxu Lu, Shengzhe Pan, Lianrong Zhou, Zhejun Jiang, Hongcheng Ni, Wenbin Zhang, Jian Wu
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引用次数: 0

Abstract

In chemical reactions, the nuclear motion of the molecules plays a crucial role in determining the reaction rates and outcomes. Employing the cold target recoil ion momentum spectroscopy and femtosecond pump-probe techniques, we perform a molecular-level study into the influence of nuclear vibrations on light-induced bimolecular reactions within H2D2 dimers. The study focuses on the formation dynamics of D2H+ and H2D+ cations, shedding light on the interplay between translational and vibrational motions of the nuclei steering the bimolecular reactions. Our observations reveal a notable yield ratio of 1:1.6 between H2D+ and D2H+ channels, accompanied with a faster formation of D2H+ compared to H2D+. Molecular dynamics simulations unveil that the faster vibrational motion of H2+ than that of D2+ upon single ionization within the dimer accounts for these differences. Our findings provide new insight into the time-resolved kinetic isotope effect on the bimolecular reactions, highlighting the critical relationship between nuclear vibrational motions and reaction dynamics.

Abstract Image

核运动对光诱导双分子相互作用动力学的影响
在化学反应中,分子的核运动对决定反应速率和结果起着至关重要的作用。利用冷靶反冲离子动量光谱和飞秒泵浦探针技术,我们在分子水平上研究了核振动对 H2-D2 二聚体中光诱导双分子反应的影响。研究的重点是 D2H+ 和 H2D+ 阳离子的形成动力学,揭示了引导双分子反应的原子核平移运动和振动运动之间的相互作用。我们的观察结果表明,H2D+ 和 D2H+ 通道之间的产率比为 1:1.6,同时 D2H+ 的形成速度快于 H2D+。分子动力学模拟揭示了造成这些差异的原因,即在二聚体内发生单电离时,H2+ 的振动运动比 D2+ 快。我们的发现为双分子反应的时间分辨动力学同位素效应提供了新的见解,突出了核振动运动与反应动力学之间的重要关系。
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来源期刊
Physical Review X
Physical Review X PHYSICS, MULTIDISCIPLINARY-
CiteScore
24.60
自引率
1.60%
发文量
197
审稿时长
3 months
期刊介绍: Physical Review X (PRX) stands as an exclusively online, fully open-access journal, emphasizing innovation, quality, and enduring impact in the scientific content it disseminates. Devoted to showcasing a curated selection of papers from pure, applied, and interdisciplinary physics, PRX aims to feature work with the potential to shape current and future research while leaving a lasting and profound impact in their respective fields. Encompassing the entire spectrum of physics subject areas, PRX places a special focus on groundbreaking interdisciplinary research with broad-reaching influence.
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