Photoelectron imaging of the SO3 anion: vibrational resolution in photoelectron angular distributions

Cate Sara Anstoter; J. R. R. Verlet

doi:10.1080/00268976.2020.1821921

Photoelectron imaging of the SO3 anion: vibrational resolution in photoelectron angular distributions

Cate Sara Anstoter, J. R. R. Verlet

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

The photoelectron imaging of the pyramidal sulphite radical monoanion is presented in the photon energy range spanning 3.10–4.45 eV. Two features are seen corresponding to formation of the ground electronic state of the neutral and to thermionic emission, which is seen for hv > 3.7 eV. Photoelectron spectra corresponding to direct detachment show vibrational structure associated with the v2 umbrella mode of the neutral. A similar structure is seen in the photoelectron angular distributions. The photoelectron angular distributions were modelled and agree with experiment. However, we cannot provide an explanation for the observed vibrational structure in the photoelectron angular distributions. The observed thermionic emission is assigned to the excitation to a pair of degenerate Feshbach resonances, which can internally convert and subsequently emit electrons statistically.

Original language	English
Article number	e1821921
Number of pages	9
Journal	Molecular Physics
Volume	119
Issue number	1-2
DOIs	https://doi.org/10.1080/00268976.2020.1821921
Publication status	Published - 24 Sept 2020

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10.1080/00268976.2020.1821921

Cite this

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title = "Photoelectron imaging of the SO3 anion: vibrational resolution in photoelectron angular distributions",

abstract = "The photoelectron imaging of the pyramidal sulphite radical monoanion is presented in the photon energy range spanning 3.10–4.45 eV. Two features are seen corresponding to formation of the ground electronic state of the neutral and to thermionic emission, which is seen for hv > 3.7 eV. Photoelectron spectra corresponding to direct detachment show vibrational structure associated with the v2 umbrella mode of the neutral. A similar structure is seen in the photoelectron angular distributions. The photoelectron angular distributions were modelled and agree with experiment. However, we cannot provide an explanation for the observed vibrational structure in the photoelectron angular distributions. The observed thermionic emission is assigned to the excitation to a pair of degenerate Feshbach resonances, which can internally convert and subsequently emit electrons statistically.",

author = "Anstoter, {Cate Sara} and Verlet, {J. R. R.}",

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T1 - Photoelectron imaging of the SO3 anion: vibrational resolution in photoelectron angular distributions

AU - Anstoter, Cate Sara

AU - Verlet, J. R. R.

PY - 2020/9/24

Y1 - 2020/9/24

N2 - The photoelectron imaging of the pyramidal sulphite radical monoanion is presented in the photon energy range spanning 3.10–4.45 eV. Two features are seen corresponding to formation of the ground electronic state of the neutral and to thermionic emission, which is seen for hv > 3.7 eV. Photoelectron spectra corresponding to direct detachment show vibrational structure associated with the v2 umbrella mode of the neutral. A similar structure is seen in the photoelectron angular distributions. The photoelectron angular distributions were modelled and agree with experiment. However, we cannot provide an explanation for the observed vibrational structure in the photoelectron angular distributions. The observed thermionic emission is assigned to the excitation to a pair of degenerate Feshbach resonances, which can internally convert and subsequently emit electrons statistically.

AB - The photoelectron imaging of the pyramidal sulphite radical monoanion is presented in the photon energy range spanning 3.10–4.45 eV. Two features are seen corresponding to formation of the ground electronic state of the neutral and to thermionic emission, which is seen for hv > 3.7 eV. Photoelectron spectra corresponding to direct detachment show vibrational structure associated with the v2 umbrella mode of the neutral. A similar structure is seen in the photoelectron angular distributions. The photoelectron angular distributions were modelled and agree with experiment. However, we cannot provide an explanation for the observed vibrational structure in the photoelectron angular distributions. The observed thermionic emission is assigned to the excitation to a pair of degenerate Feshbach resonances, which can internally convert and subsequently emit electrons statistically.

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DO - 10.1080/00268976.2020.1821921

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