Ionization and Single and Double Electron Capture in Proton-Ar Collisions

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Abstract

Total cross sections for formation of H and H-, and electron production, in H+ + Ar collisions have been calculated at energies between 100 eV and 200 keV by employing two methods: for E < 10 keV, a semiclassical treatment with an expansion in a basis of electronic wave functions of the ArH+ quasimolecule and, for E > 10 keV, the switching-classical-trajectory-Monte Carlo method (s-CTMC). The semiclassical calculation involves transitions to molecular autoionizing states, calculated by applying a block-diagonalization technique. The s-CTMC method is adept to treat two-electron processes and yields total cross sections for H- formation in reasonably good agreement with the experimental data. Cross sections for electron- and H-production processes, which are dominated by one-electron transitions, are in good agreement with the experimental data.

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Jorge, A., Illescas, C., Méndez, L., & Rabadán, I. (2018). Ionization and Single and Double Electron Capture in Proton-Ar Collisions. Journal of Physical Chemistry A, 122(9), 2523–2534. https://doi.org/10.1021/acs.jpca.7b11769

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