Abstract
The electron-impact approximation for the ejection of target electrons by heavy, highly charged projectiles is modified in order to allow for a distortion of the initial state by the heavy perturber. Model calculations for ionization of ${\mathrm{H}}_{2}$ by 0.5--0.6 MeV/amu ${\mathrm{Cu}}^{5+}$ impact show that the binary-encounter peak is considerably broadened when distortion effects are included. In general, this leads to a better agreement of the peak shape with experimental data than the conventional binary-encounter model.
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