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Superoxide anion (O2−) collisions with CO2 molecules in the energy range of 50-950 eV
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Resumo(s)
A novel gas-phase molecular scattering study is reported for O2− collisions with CO2 for impact energies ranging from 50 to 950 eV in the lab frame. The absolute total electron detachment, relative total, and partial ionization cross sections have been measured within this energy range together with the positive ion yields. The primary anionic beam projectile is produced in a pulsed hollow cathode discharge induced plasma, and its interactions with the neutral molecular target occur in a gas cell at a well-known constant pressure. For impact energies above 500 eV, high mass (m > 44 u) charged complexes have been detected. With the aid of a theoretical study using ab initio methods, we propose a mechanism to infer the formation of these cationic species, which have been assigned to projectile-target stable compounds (CO3+ and CO4+).
Descrição
Funding Information: The authors acknowledge the generous allocation of computer time at the Centro de Computaci\u00F3n Cient\u00EDfica at the Universidad Aut\u00F3noma de Madrid (CCC-UAM). This work was partially supported by MICINN (Spanish Ministry of Science and Innovation) Project Nos. PID2019-104727RB-C21 and PID2022-138470NB-I00 funded by MCIN/AEI/10.13039/501100011033 and the \u201CMar\u00EDa de Maeztu\u201D (Grant No. CEX2023-001316-M) Program for Centers of Excellence in RD. This study has been performed within the framework of the 21GRD02 BIOSPHERE project supported by the European Association of National Metrology Institutes (EURAMET). © Author(s) 2025 Publisher Copyright: © 2025 Author(s).