Elastic transfer and parity dependence of the nucleus-nucleus optical potential

Abstract

Background: A recent coupled reaction channel (CRC) study shows that the enhanced oscillation of the elastic 16O+12C cross section at backward angles is due mainly to the elastic α transfer or the core exchange. Such a process gives rise to a parity-dependent term in the total elastic S-matrix, an indication of the parity dependence of the 16O+12C optical potential (OP). Purpose: To explicitly determine the core exchange potential (CEP) induced by the symmetric exchange of the two 12C cores in the elastic 16O+12C scattering at E lab= 132 and 300 MeV, and explore its parity dependence. Method: S-matrix generated by CRC description of the elastic 16O+12C scattering is used as the input for the inversion calculation to obtain the effective local OP that contains both the Wigner and Majorana terms. Results: The high-precision inversion results show a strong contribution by the complex Majorana term in the total OP of the 16O+12C system, and thus provide for the first time a direct estimation of the parity-dependent CEP. Conclusions: The elastic α transfer or exchange of the two 12C cores in the 16O+12C system gives rise to a complex parity dependence of the total OP. This should be a general feature of the OP for the light heavy-ion systems that contain two identical cores.