Spectroscopic observation of resonances in the F + H2 reaction

Spectroscopic observation of resonances in the F + H2 reaction

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Photodetachment spectroscopy of the FH2(-) and FD2(-) anions allows for the direct observation of reactive resonances in the benchmark reaction F + H2 → HF + H. Using cooled anion precursors and a high-resolution electron spectrometer, we observe several narrow peaks not seen in previous experiments...

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Bibliographic Details
Main Authors: Kim, J, Weichman, M, Sjolander, T, Neumark, D, Kłos, J, Alexander, M, Manolopoulos, D
Format: Journal article
Language:English
Published: American Association for the Advancement of Science 2015
Description
Summary:Photodetachment spectroscopy of the FH2(-) and FD2(-) anions allows for the direct observation of reactive resonances in the benchmark reaction F + H2 → HF + H. Using cooled anion precursors and a high-resolution electron spectrometer, we observe several narrow peaks not seen in previous experiments. Theoretical calculations, based on a highly accurate F + H2 potential energy surface, convincingly assign these peaks to resonances associated with quasibound states in the HF + H and DF + D product arrangements and with a quasibound state in the transition state region of the F + H2 reaction. The calculations also reveal quasibound states in the reactant arrangement, which have yet to be resolved experimentally.

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