Abstract
Data for the elastic scattering of 27.8 MeV polarized from and new data for the sequential breakup have been analyzed using the coupled-channels (CC) method with potentials derived via the cluster-folding (CF) procedure. The three low-lying resonant excited states of as well as nonresonant continuum states were taken into account in the calculations by means of the continuum-discretized coupled-channels (CDCC) method. No adjustable parameters were used. The analysis shows a dominant role of the projectile breakup into in the elastic scattering. The deuteron transfer process is found to be of less importance. The calculations reproduce the values of the differential cross section for the sequential breakup channels at forward scattering angles. Predictions for the direct breakup near the breakup threshold are made.
- Received 3 April 1997
DOI:https://doi.org/10.1103/PhysRevC.56.1895
©1997 American Physical Society