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| Deuteron-stripping reaction is one of the most effective tools to study the single-particle structure of atomic nuclei. Optical model potential(OMP) is one of the most important inputs in the calculations of (d,p) reactions. The relativistic systematic microscopic optical potential(RMOP) based on the Dirac-Brueckner-Hartree-Fock theory is used for calculating the angular distributions of proton elastic scattering and (d,p) reactions with the
uc{14}{C},
uc{58}{Ni}, and
uc{116}{Sn} targets at both low and higher energies. Neutron spectroscopic factors in the ground states of
uc{15}{C},
uc{59}{Ni}, and
uc{117}{Sn} are extracted by comparing with experimental data. Comparisons with those obtained using phenomenological systematic optical model potentials, KD02 and CH89 show that the RMOP, which has no free parameters, can give reasonable reproduction to the experimental angular distributions. The spectroscopic factors extracted from experimental data using the RMOP, however, differ from those of KD02 and CH89 systematically. |
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| Keywords:Nuclear Physics, Deuteron stripping reactions, systematic microscopic optical model potential, spectroscopic factors |
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