Abstract
Isotopically enriched 13C targets have been bombarded with deuterons of energy 0.4–0.85 MeV. Differential cross sections have been measured for the 13C(d, p 0), (d, t 0), (d, α 0) and (d, γ 1) reactions in the form of an excitation function at 90°(lab) and angular distributions at bombarding energies of 0.41, 0.51, 0.61, 0.71 and 0.81 MeV. They have also been measured for the 12C(d, p 0) reaction at 0.41 and 0.51 MeV. These data have been compared with the predictions of single and two-nucleon transfer DWBA calculations and Hauser-Feshbach statistical theory calculations. The (d, p) reactions can be described by the deuteron stripping mechanism but the (d, α) reactions proceed almost exclusively through broad overlapping levels of the compound nucleus. The (d, t) reaction appears to be an interference mixture of both these processes.
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