Abstract
The double-stripping reaction has been studied with a magnetic spectrograph at an incident energy of 18 MeV, with an energy resolution of about 30 keV. Differential cross sections have been measured for transitions to states in up to an excitation energy of 11 MeV. The data have been analyzed in the distorted-wave Born approximation using the Glendenning formalism and the multishell shell-model wave functions of Zuker, Buck, and McGrory for states in . The model wave functions are found to fit the data quite well for a number of low lying-states. However, several exceptions are also found.
- Received 6 July 1971
DOI:https://doi.org/10.1103/PhysRevC.5.328
©1972 American Physical Society