Elastic scattering and total reaction cross sections of 6Li studied with a microscopic continuum discretized coupled channels model

Abstract

We present a systematic study of 6Li elastic scattering and total reaction cross sections at incident energies around the Coulomb barrier within the continuum discretized coupled-channels (CDCC) framework, where 6Li is treated in an α+d two-body model. Collisions with 27Al, 64Zn, 138Ba and 208Pa are analyzed. The microscopic optical potentials (MOP) based on Skyrme nucleon-nucleon interaction for α and d are adopted in CDCC calculations and satisfactory agreement with the experimental data is obtained without any adjustment on MOPs. For comparison, the α and d global phenomenological optical potentials (GOP) are also used in CDCC analysis and a reduction no less than 50\% on the surface imaginary part of deuteron GOP is required for describing the data. In all cases, the 6Li breakup effect is significant and provides repulsive correction to the folding model potential. The reduction on the surface imaginary part of GOP of deuteron reveals a strong suppression of the reaction probability of deuteron as a component of 6Li as compared with that of a free deuteron. A further investigation is made by taking the d breakup process into account equivalently within the dynamic polarization potential approach and it shows that d behaves like a tightly bound nucleus in 6Li induced reactions.