Abstract
The factors of the state (2.236 MeV, nsec) and the state (∼3.1 MeV, nsec) in have been measured as and by a time-differential perturbed-angular-distribution technique. The states were populated by and reactions with pulsed lithium beams. An in-beam superconducting magnet supplied a field of ∼60 kG. The state factor is in agreement with the additivity value obtained from empirical single-particle factors for a configuration and consistent with a small anomalous orbital contribution for the neutron. The factor for the state in is in surprisingly good agreement with those for the state in and the state in , in view of the possible existence of number-dependent effects.
NUCLEAR REACTIONS , MeV, pulsed beam, measured spin rotation in kG, deduced .
- Received 10 July 1975
DOI:https://doi.org/10.1103/PhysRevC.12.1242
©1975 American Physical Society