Abstract
The reaction cross section, and analyzing powers to the (7.03 MeV) natural parity state of have been studied by coupled reaction channels calculations that include deuteron cluster transfer from the ground and spin-orbit triplet excited states in as well as from the first excited state in to assess the role played by these inelastic transfers. This natural parity transition was chosen for detailed study because the number of L transfers allowed is more limited than for transfers to unnatural parity states. Inclusion of the transfer from the excited state of is especially vital for understanding the tensor analyzing power data The same analysis was then applied to the transfers to the ground and 3.95 MeV states in Failure to describe the shape of the ground state angular distribution motivated its remeasurement and its anomalous shape was confirmed. The present work suggests that single nucleon sequential transfer might be the dominant mode for the ground state transfer.
- Received 11 January 2000
DOI:https://doi.org/10.1103/PhysRevC.61.064607
©2000 American Physical Society