6533b85ffe1ef96bd12c27b5
RESEARCH PRODUCT
Reaction dynamics and nuclear structure studies via deep inelastic collisions with heavy-ions: spin and parity assignment in49Ca
Alessandro ZucchiattiD. BazzaccoA. M. StefaniniS. LunardiD. MontanariM. KmiecikR. OrlandiD. MengoniR. NicoliniF. RecchiaAlessandra CorsiG. PollaroloO. WielandG. De AngelisG. Lo BiancoA. GadeaSuzana SzilnerD. R. NapoliR. SilvestriA. MajE. FiorettoB. MillionS. M. LenziF. ScarlassaraE. FarneaG. BocchiG. MontagnoliB. GuiotF. C. L. CrespiF. Della VedovaL. CorradiA. BraccoG. BenzoniS. LeoniP. J. R. MasonN. BlasiW. MeczynskiC. A. UrJ. J. Valiente-dobónF. CameraR. P. Singhsubject
PhysicsHistoryeducation.field_of_studyPopulationInelastic collisionGamma rayCoulomb barrierComputer Science ApplicationsEducationReaction dynamicsExcited stateNeutronAtomic physicsNuclear ExperimentNucleoneducationdescription
The population and gamma decay of neutron rich nuclei around 48Ca has been measured at Legnaro National Laboratory with the PRISMA-CLARA setup, using deep-inelastic collisions (DIC) on 64Ni, at an energy approximately twice the Coulomb barrier. The reaction properties of the main products are investigated, focusing on total cross sections and angular distributions both integrated in energy and associated to the population of specific excited states. Gamma spectroscopy studies are also performed, giving evidence, for the first time in transfer reactions with heavy ions, of a large spin alignment (~70%), perpendicular to the reaction plane. This makes possible the use of angular distributions and polarization measurements to firmly establish the spin and parity of excited states populated in nucleon transfer channels, as in the case of 49Ca, where candidates for particle-core coupling are investigated. Both reaction and gamma spectroscopy studies demonstrate the relevance of DIC with heavy ions for a detailed investigation of moderately neutron rich systems.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2011-09-23 |