Core-valence double ionization of carbon suboxide
Emelie Olsson, Lucas M. Cornetta, Veronica Daver Ideböhn, Måns Wallner, Marco Parriani, Richard J. Squibb, Gunnar Öhrwall, Stefano Falcinelli, Leif Karlsson, John H. D. Eland, Hans Ågren, Raimund Feifel

TL;DR
This paper studies the double ionization of carbon suboxide, comparing experimental spectra with theoretical models to better understand the process.
Contribution
The study introduces a more complex model for core-valence double ionization that improves agreement with experimental data.
Findings
Core-valence double ionization spectra differ significantly from single ionization spectra.
Including core-valence orbital overlap improves theoretical predictions of the ionization process.
Auger decay after core-valence ionization shows site-specific behavior consistent with single core ionization.
Abstract
We have measured the core-valence double ionization spectra of carbon suboxide above both the O 1s and C 1s edges. Following several core-valence cases known in the literature, to begin with the spectra are compared with the well-known single ionization valence photoelectron spectrum of this system, from which they surprisingly differ quite strongly. This motivates a comparison to electronic structure calculations carried out within the sudden approximation where the overlap between the core and valence orbital is included, while still assuming decoupling of the core and valence ionization events. The substantially improved agreement indicates that this more complex description is needed to model the core-valence double ionization process adequately in the present case. Accordingly, assignments of spectral features are made by comparison of our experimental and numerical spectra. Auger…
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Taxonomy
TopicsMass Spectrometry Techniques and Applications · Advanced Chemical Physics Studies · Catalytic Processes in Materials Science
