Mode-Selective Vibrational-Tunneling Dynamics in the N=2 Triad of the Hydrogen-Bonded (HF)₂ Cluster
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Date
2023-08Type
- Journal Article
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yes
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Abstract
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. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000627329Publication status
publishedExternal links
Journal / series
Israel Journal of ChemistryVolume
Pages / Article No.
Publisher
Wiley-VCHMore
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ETH Bibliography
yes
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