Coulomb breakup of 6Li into α\,+\,d in the field of ion 208Pb

Abstract

The triple differential cross section of 208Pb(6Li;α,d)208Pb elastic Coulomb breakup is calculated using the semiclassical method. We fit the parameters of the Woods-Saxon potential using the experimental α-d phase shifts for different states to describe the relative motion of α-particle and deuteron. In order to check the validity of the two particle approach for α-d system we apply a potential model to describe the 2H(α,γ)6Li radiative capture. Our results for the Coulomb breakup of 6Li show large value of the forward-backward asymmetry of the α-particle and deuteron emission around zero energy in the 6Li center-of-mass (c.m.) system. Comparison of the results of our calculation with experimental data gives evidence for the dominance of the Coulomb dissociation mechanism at the α-d relative energy larger than Eα\,d>300\,keV and sufficiently big contribution of nuclear distortion at Eα\,d near zero energy, but essentially smaller than the value reported in Ref.[F. Hammache et al. Phys.Rev. C82, 065802 (2010)].