氢键(HF)2簇N=2三元组的模式选择振动隧穿动力学

IF 2.3 4区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY
Michael Hippler, Lars Oeltjen, Martin Quack
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引用次数: 0

摘要

在近红外1.3 μm范围内,用脉冲超音速狭缝射流膨胀的w-二极管激光腔环荡光谱测量了氢键(HF)2的Nj=22, Ka=0←1跃迁和Nj=23, Ka=0←0和Ka=1←0跃迁的振动分辨光谱。光谱分配和分析提供了对这些高激发振动态动力学的深入了解,特别是关于氢键的预解离和氢键转换的隧道过程。与我们之前分析的Nj=21和Nj=22组分的谱一起,现在可以比较这三个三元组中所有三个组分的模式特定动力学。在N=2三元组中,高频拉伸振动由激发能相似的两个量子激发,但量子分布方式不同,对动力学影响明显。观测到的能带中心和隧道分裂与我们最近在(HF)2势能超表面SO-3上的计算结果一致,解决了长期以来关于该泛音区域多能级对称有序的讨论。本文还讨论了多原子分子和团簇的非统计反应动力学的一般问题,以及势垒隧穿之上的准绝热通道。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mode-Selective Vibrational-Tunneling Dynamics in the N=2 Triad of the Hydrogen-Bonded (HF)2 Cluster

Mode-Selective Vibrational-Tunneling Dynamics in the N=2 Triad of the Hydrogen-Bonded (HF)2 Cluster

Rovibrationally resolved spectra of the Nj=22, Ka=0←1 transition and of the Nj=23, Ka=0←0 and Ka=1←0 transitions of the hydrogen-bonded (HF)2 have been measured in the near infrared range near 1.3 μm by cw-diode laser cavity ring-down spectroscopy in a pulsed supersonic slit jet expansion. The spectroscopic assignment and analysis provided an insight into the dynamics of these highly-excited vibrational states, in particular concerning the predissociation of the hydrogen bond and the tunneling process of the hydrogen bond switching. Together with our previously analyzed spectra of the Nj=21 and Nj=22 components, the mode-specific dynamics in all three components of this triad can now be compared. In the N=2 triad, the HF-stretching vibration is excited by two quanta with similar excitation energy, but the quanta are distributed in three different ways, which has a distinct influence on the dynamics. The observed band centers and tunneling splittings are in agreement with our recent calculations on the (HF)2 potential energy hypersurface SO-3, resolving the long-standing discussion about the symmetry ordering of polyad levels in this overtone region. The results are also discussed in relation to the general questions of non-statistical reaction dynamics of polyatomic molecules and clusters and in relation to quasi-adiabatic channel above barrier tunneling.

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来源期刊
Israel Journal of Chemistry
Israel Journal of Chemistry 化学-化学综合
CiteScore
6.20
自引率
0.00%
发文量
62
审稿时长
6-12 weeks
期刊介绍: The fledgling State of Israel began to publish its scientific activity in 1951 under the general heading of Bulletin of the Research Council of Israel, which quickly split into sections to accommodate various fields in the growing academic community. In 1963, the Bulletin ceased publication and independent journals were born, with Section A becoming the new Israel Journal of Chemistry. The Israel Journal of Chemistry is the official journal of the Israel Chemical Society. Effective from Volume 50 (2010) it is published by Wiley-VCH. The Israel Journal of Chemistry is an international and peer-reviewed publication forum for Special Issues on timely research topics in all fields of chemistry: from biochemistry through organic and inorganic chemistry to polymer, physical and theoretical chemistry, including all interdisciplinary topics. Each topical issue is edited by one or several Guest Editors and primarily contains invited Review articles. Communications and Full Papers may be published occasionally, if they fit with the quality standards of the journal. The publication language is English and the journal is published twelve times a year.
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