Abstract
The total cross sections for single-electron capture and transfer ionization are computed for ${\mathrm{Li}}^{3+}+\mathrm{H}\mathrm{e}$ collisions in a four-body distorted-wave formalism. The contribution from the $e\ensuremath{-}e$ interaction during the collision is evaluated. Comparison between the present theoretical results and measurements at 50--5000 keV/amu yields satisfactory agreement. The continuum distorted-wave four-body method employed can provide information about the relative significance of the dynamic interelectron interaction in the collisions under study.
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