Breakup effects in the 16 C+p and 16 C+d reactions

Abstract

We analyze the 16 C+p and 16 C+d reactions within the four- and five-body Continuum Discretized Coupled Channel (CDCC) method. The 16C nucleus is described by a 14 C+n+n configuration in hyperspherical coordinates. This description reproduces fairly well several 16C low-lying states. First we analyze the 2+→ 0+ E2 transition amplitude, which confirms that an effective charge must be introduced to reproduce the experimental value. Then, proton and deuteron elastic and inelastic scattering are investigated by including 16C pseudostates, which simulate the 14 C+n+n continuum. In 16 C+d, the deuteron breakup is taken into account with p+n two-body pseudostates. A fair agreement with experiment is obtained without any fitting parameter. Breakup effects are in general small, but improve the agreement with experiment.