MICROSCOPIC MODEL ANALYSES OF SELECT SCATTERING OF 135 MEV PROTONS FROM C-12

An effective interaction based upon two nucleon g matrices has been us ed in a fully microscopic calculation of the nonlocal proton-C-12 opti cal potential at 135 MeV. Excellent predictions of the differential cr oss section from elastic scattering result. The same effective interac tion, combined with one body density matrix elements specified by a la rge basis shell model for C-12 (N-12), and with the relative motion wa ve functions from the nonlocal optical potentials define the distorted wave approximation that is employed to analyze cross sections from in elastic proton scattering. With that approximation, inelastic scatteri ng cross sections from Various states in C-12 and from the charge exch ange reactions leading to the low excitation states of N-12 have been evaluated. Our results indicate a problem with the structure model whe n <3(h)over bar omega> components are considered.