Nonlocal interaction and collective excitation in deuteron breakup on 24Mg nucleus
Abstract
Deuteron breakup in collision with a 24Mg nucleus is studied using rigorous three-body scattering equations, extended to include also the excitation of the nucleus. Predictions based on local and nonlocal nucleon-nucleus optical potentials with rotational quadrupole deformation enabling the excitation of the 24Mg(2+) state are compared. The nonlocality effect is less pronounced than in the deuteron inelastic scattering 24Mg(d,d') at the same energies, and manifests itself quite differently for semi-inclusive differential cross sections of elastic and inelastic breakup.
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