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Systematic study of the nuclear potential through high precision back-angle quasi-elastic scattering measurements

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Gasques , Leandro
Evers, Maurits
Dasgupta, Mahananda
Gomes, P R S
Anjos, R
Brown, Michael
Rodriguez, Matias
Thomas, Renju
Hagino, Kouichi
Hinde, David

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American Physical Society

Abstract

High precision quasi-elastic scattering excitation functions have been measured at energies well below the Coulomb barrier for the reactions of S32 with Pb208, Au197, W186, and Er170. Single-channel and coupled-channels calculations have been performed to extract the diffuseness parameter of the nuclear potential. For the reactions involving near-spherical targets, both theoretical analyses give the same diffuseness parameter. On the other hand, for deformed systems, couplings are important even at deep sub-barrier energies. In general, the effect of couplings is to reduce the diffuseness parameter value extracted from a single-channel potential. Single-channel fits to quasi-elastic scattering data result in a=0.72-0.82 fm, whereas coupled-channels calculations give diffuseness parameters in the range 0.58-0.75 fm.

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Physical Review C: Nuclear Physics

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Restricted until

2037-12-31