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|Title: ||Microscopic description of proton scattering at 295 MeV from Pb isotopes|
|Authors: ||RAFI, S|
|Keywords: ||MEAN-FIELD THEORY|
|Issue Date: ||2011|
|Publisher: ||AMER PHYSICAL SOC|
|Citation: ||PHYSICAL REVIEW C,84(3)-|
|Abstract: ||Microscopic analysis of the recently reported 295-MeV-proton scattering data from Pb isotopes and (58)Ni is presented within the framework of the Brueckner-Hartree-Fock theory. The effective interaction (g matrix) has been calculated using three Hamiltonians with Urbana v-14, Argonne v-18, and Ried93 internucleon potentials. The microscopic optical potential is calculated by folding the effective interactions over nucleon density distributions obtained in the relativistic mean field framework. The Argonne v-18 and Ried93 interactions have been used for the first time to calculate the nucleon-nucleus optical potential. The calculations reproduce the experiment well thus revalidating the use of microscopic optical potential in such analyses.|
|Appears in Collections:||Article|
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