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Verfasst von:Hassan, Saba [VerfasserIn]   i
 Tauch, Jonas [VerfasserIn]   i
 Kas, Milaim [VerfasserIn]   i
 Nötzold, Markus [VerfasserIn]   i
 López-Carrera, Henry [VerfasserIn]   i
 Endres, Eric S. [VerfasserIn]   i
 Wester, Roland [VerfasserIn]   i
 Weidemüller, Matthias [VerfasserIn]   i
Titel:Associative detachment in anion-atom reactions involving a dipole-bound electron
Verf.angabe:Saba Zia Hassan, Jonas Tauch, Milaim Kas, Markus Nötzold, Henry López Carrera, Eric S. Endres, Roland Wester & Matthias Weidemüller
E-Jahr:2022
Jahr:10 February 2022
Umfang:7 S.
Fussnoten:Gesehen am 30.03.2022
Titel Quelle:Enthalten in: Nature Communications
Ort Quelle:[London] : Nature Publishing Group UK, 2010
Jahr Quelle:2022
Band/Heft Quelle:13(2022), Artikel-ID 818, Seite 1-7
ISSN Quelle:2041-1723
Abstract:Associative electronic detachment (AED) between anions and neutral atoms leads to the detachment of the anion’s electron resulting in the formation of a neutral molecule. It plays a key role in chemical reaction networks, like the interstellar medium, the Earth’s ionosphere and biochemical processes. Here, a class of AED involving a closed-shell anion (OH−) and alkali atoms (rubidium) is investigated by precisely controlling the fraction of electronically excited rubidium. Reaction with the ground state atom gives rise to a stable intermediate complex with an electron solely bound via dipolar forces. The stability of the complex is governed by the subtle interplay of diabatic and adiabatic couplings into the autodetachment manifold. The measured rate coefficients are in good agreement with ab initio calculations, revealing pronounced steric effects. For excited state rubidium, however, a lower reaction rate is observed, indicating dynamical stabilization processes suppressing the coupling into the autodetachment region. Our work provides a stringent test of ab initio calculations on anion-neutral collisions and constitutes a generic, conceptual framework for understanding electronic state dependent dynamics in AEDs.
DOI:doi:10.1038/s41467-022-28382-w
URL:kostenfrei: Volltext: https://doi.org/10.1038/s41467-022-28382-w
 kostenfrei: Volltext: https://www.nature.com/articles/s41467-022-28382-w
 DOI: https://doi.org/10.1038/s41467-022-28382-w
Datenträger:Online-Ressource
Sprache:eng
Sach-SW:Atomic and molecular collision processes
 Reaction kinetics and dynamics
 Ultracold gases
K10plus-PPN:1796135682
Verknüpfungen:→ Zeitschrift
 
 
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