Sequential electron emission and nuclear dissociation after the O \(1s→({}^4\Sigma^{−}_{u})4pσ\) excitation in O₂ molecules
Song, Shan; Ding, Bocheng; Xu, Weiqing; Nicolas, Christophe; Patanen, Minna; Nandi, Saikat; Bozek, John; Miron, Catalin; Xiao, Zhisong; Liu, Xiao-Jing (2019-02-22)
Song, S., Ding, B., Xu, W., Nicolas, C., Patanen, M., Nandi, S., Bozek, J., Miron, C., Xiao, Z., Liu, X. (2019) Sequential electron emission and nuclear dissociation after the O 1s→(Σu−4)4pσ excitation in O2 molecules. Physical Review A, 99 (2), 022511. https://doi.org/10.1103/PhysRevA.99.022511
©2019 American Physical Society.
https://rightsstatements.org/vocab/InC/1.0/
https://urn.fi/URN:NBN:fi-fe201903219638
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Abstract
When an electron is resonantly excited from a core orbital to a Rydberg one in a molecule, complex multi-time-scale multistep processes are triggered. By using a high-resolution energy-resolved coincidence between Auger electron and ions, we identified the sequences of processes following the spectator Auger decays induced by K-shell excitation in O₂. The first step of the spectator Auger decay can end up to a few metastable O₂⁺ states which autoionize into stable O₂²⁺. However, the majority of O₂⁺ states are dissociative. They evolve into several dissociation limits with complex crossings between potential-energy curves. After the molecular dissociation is finished, the generated fragments can further decay either by fluorescence emission or by autoionization. Interestingly, some electrons are always emitted after molecular dissociation.
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