Elsevier

Nuclear Physics A

Volume 163, Issue 2, 8 March 1971, Pages 649-660
Nuclear Physics A

Many-nucleon transfer reactions of protons with 12C and 13C at 45.0 MeV

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Abstract

Differential cross sections for the 12C(p, 6Li)7Be, 13C(p, 6Li)8Be, 13C(p, 6Li)8Be∗ (2.90 MeV), and 13C(p, 7Li)7Be reactions have been measured at an incident proton energy of 45.0 MeV. The measurements extend for the most part over laboratory angles from 15° to 80°. The cross sections for all the reactions are found to be very small and are of the order of 10 μb. Nevertheless, for 13C the six-nucleon transfer reaction has a cross section about 5 times that of the five-nucleon transfer reaction. The angular distributions have been analysed using a distorted-wave Born approximation (DWBA) theory assuming the presence of lithium clusters in the target nuclei.

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Present address: Department of Physics, University of Alberta, Edmonton, Canada.

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