Abstract
Inelastic scattering of + was investigated at MeV in order to study the influence of coupled channels effects. Angular distributions were measured in the angular range for elastic scattering and inelastic excitation of the (3.737 MeV), (3.905 MeV), (4.492 MeV) states in and the (1.982 MeV) and (5.098 MeV) states in . The results are compared to distorted-wave Born approximation and coupled channel calculations employing collective form factors. The improvements of the coupled channel predictions over those of the distorted-wave Born approximation are less dramatic than observed previously for +. With the exception of the ground state transition, the spectroscopic factors for the one-neutron-transfer reaction (, ) are in good agreement with those observed in light ion induced reactions.
NUCLEAR REACTIONS (, ), MeV; measured , elastic and inelastic scattering; (, ) and (, ) reactions; optical model, DWBA, CC calculations; deduced deformation lengths and spectroscopic factors.
- Received 15 March 1982
DOI:https://doi.org/10.1103/PhysRevC.26.1010
©1982 American Physical Society