We have used the computer language Java to develop a semi-classical simulation program for
elastic nucleus-nucleus scattering. Using this program, we perform a $\chi^{2}$-fit to the
observed angular distribution data of the elastic nucleus-nucleus
sca...
We have used the computer language Java to develop a semi-classical simulation program for
elastic nucleus-nucleus scattering. Using this program, we perform a $\chi^{2}$-fit to the
observed angular distribution data of the elastic nucleus-nucleus
scattering and provide computer simulations of the angular
distribution, the deflection function, the reaction cross-section,
the scattering matrix, the distance of closest approach, and analysis
results as graphical representations. The program is applied to
elastic scattering of the $^{12}$C+$^{12}$C system at
$E_{\rm{lab}}$=360 MeV. The calculated differential cross-sections
of elastic scattering in the nuclear-modified Glauber model lead
to improved results of about 22\% compared with the ones in the
Coulomb-modified Glauber model.