Akademik Veri Yönetim Sistemi
PHYSICS OF ATOMIC NUCLEI, cilt.75, sa.8, ss.963-968, 2012 (SCI-Expanded)
The elastic scattering of the halo nucleus He-6 from heavy targets such as Au-197 and Pb-208 has been investigated in order to explain the Coulomb rainbow peak due to the Fresnel-type diffraction observed in the experimental data. In order to examine the role of nuclear potential to describe He-6 + Au-197 and He-6 + Pb-208 systems, we have used the no-core shell model, few-body and Gaussian-shaped density distributions at various energies. The microscopic real parts of the complex nuclear potential have been obtained by using the double-folding model for each of the density distribution and the phenomenological imaginary potentials have been taken as the standard Woods-Saxon shape. We have observed that fewbody and Gaussian-shaped density distributions have given standard Fresnel-type diffraction results, a classical scattering pattern with Coulomb rainbow peak whereas the nuclear potential obtained by using the no-core shell-model density distribution has provided the reduction at Fresnel peak and has given more consistent results with the experimental data.