Neutron quadrupole transition strength in 10C deduced from the 10C(α,α') measurement with the MAIKo active target

Abstract

Elastic and inelastic alpha scatterings on 10C were measured using a 68-MeV/u radioactive 10C beam incident on the recently developed MAIKo active target system. The phenomenological effective α-N interaction and the point-nucleon density distribution in the ground state were determined from the elastic scattering data. The cross sections of the inelastic alpha scattering were calculated using this interaction and density distribution and were compared with the experiment to determine the neutron quadrupole transition matrix element Mn between the ground state and the 21+ state at Ex = 3.35 MeV in 10C. The deduced neutron transition matrix element is Mn = 6.9\, 0.7\, (fit)\, 1.2\, (sys) fm2. The ratio of the neutron transition strength to proton transition strength was determined as Mn/Mp = 1.05\, 0.11\, (fit)\, 0.17\, (sys), which indicates that the quadrupole transition between the ground state and the 21+ state in 10C is less neutron dominant compared to that in 16C.