Abstract

Binary stopping theory, although developed to describe heavy-ion stopping, has a potential in light-ion stopping which is examined in this paper. We study antiprotons, hydrogen and helium ions penetrating through elemental materials and lithium fluoride. Several comparisons with experiment show good agreement over a wide velocity range both below, around and above the stopping maximum. Predictions are given for antiproton stopping in carbon and LiF, and comments are made on the Barkas effect in the stopping of swift light ions and frozen-charge stopping of helium in carbon.

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