Abstract
The 25Mg(d,p) 26Mg reaction at 8.0 MeV incident deuteron energy has been studied. Data were obtained down to 0° with respect to the incident beam. Complete angular distributions were obtained for transitions leading to the ground state of 26Mg and excited states at 1.81, 2.94 and 3.94 MeV. The state at 3.58 MeV was excited very weakly and was seen in only a few spectra. Integrated cross sections were obtained by fitting the experimental data by a sum of Legendre polynomials. The angular distributions were analysed in terms of the DWBA. The angular distribution of the transition leading to the ground state of 26Mg has the shape of a single l = 2 stripping pattern. The other angular distributions require a sum of l = 0 and l = 2 stripping curves. The spectroscopic factors are compared with the theoretical predictions of the quasi-molecular model.
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