α scattering cross sections on 12C with microscopic coupled-channel calculation

Abstract

α elastic and inelastic scattering on 12C is investigated with the coupled-channel calculation using microscopic α-12C potentials, which are derived by folding the Melbourne g-matrix NN interaction with the matter and transition densities of 12C. These densities are obtained by a microscopic structure model of the antisymmetrized molecular dynamics combined with and without the 3α generator coordinate method. The calculation reproduces satisfactorily well the observed elastic and inelastic cross sections at incident energies of Eα=130~MeV, 172.5~MeV, 240~MeV, and 386~MeV with no adjustable parameter. Isoscalar monopole and dipole excitations to the 0+2, 0+3, and 1-1 states in the α scattering are discussed.