The difficulty in investigating fusion processes using neutron-rich halo nuclei resides in comprehending the system that allows the coupling between the elastic and breakup channels. The main objective of the present calculations is to identify the ideal coupling coefficient. that takes into account the effects of channel-coupling in computing the overall cross section of fusion section σfus, the distribution barrier of the fusion Dfus, and the probability Pfus for the subsequent systems 8He + 197Au,6He + 197Au, and 11Li + 208Pb, utilizing a quantum mechanical methodology. The coupled-channel (CC) code is used for doing quantum computations that include coupled channels. The quantum mechanical technique accurately agrees with the current observable data. Theoretical predictions of quantum mechanics exhibit exceptional agreement with the corresponding experimental results, especially in the area under the barrier of Coulomb.
Gharib et al. (Tue,) studied this question.