Saturation of low-energy antiproton annihilation on nuclei
Abstract
Recent measurements of very low-energy (pL<100 MeV/c) p annihilation on light nuclei reveal apparent suppression of annihilation upon increasing the atomic charge Z and mass number A. Using p-nucleus optical potentials V opt, fitted to p-atom energy-shifts and -widths, we resolve this suppression as due to the strong effective repulsion produced by the very absorptive V opt. The low-energy p-nucleus wavefunction is kept substantially outside the nuclear surface and the resulting reaction cross section saturates as function of the strength of Im V opt. This feature, for E >0, parallels the recent prediction, for E < 0, that the level widths of p atoms saturate and, hence, that p deeply bound atomic states are relatively narrow. Antiproton annihilation cross sections are calculated at pL=57 MeV/c across the periodic table, and their dependence on Z and A is classified and discussed with respect to the Coulomb focussing effect at very low energies.
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