AN INVESTIGATION OF 6HE+12C ELASTIC SCATTERING USING MICROSCOPIC CLUSTER MODEL

In the frame work of the cluster folding model, for the first time, the 6He+12C real folded potentials are derived using new
forms of the nuclear matter density of 6He nucleus based on α+2n or di-triton configurations. The angular distributions of
the elastic scattering differential cross section at energies 38.3,41.6 and 82.3 MeV/nucleon are reexamined using the generated
potentials. Comparisons between the extracted and measured angular distributions of the differential cross sections are
presented. Satisfactory reproduction of the data is extracted by using the square Woods-Saxon (WS2) form instead of the usual
WS shape without need to renormalize the derived potentials. The resulted reaction cross sections are also investigated and
compared with the optical limit Glauber model predictions.