6533b82bfe1ef96bd128de12

RESEARCH PRODUCT

Population of neutron-rich nuclei around 48ca with deep inelastic collisions

D. MontanariS. LeoniG. BenzoniN. BlasiA. BraccoS. BrambillaF. CameraA. CorsiF. C. L. CrespiB. MillionR. NicoliniO. WielandL. CorradiG. AngelisF. D. VedovaE. FiorettoA. GadeaB. GuiotD. R. NapoliR. OrlandiF. RecchiaR. SilvestriA. M. StefaniniR. P. SinghS. SzilnerJ. J. Valiente-dobónD. BazzaccoE. FarneaS. M. LenziS. LunardiP. MasonD. MengoniG. MontagnoliFernando ScarlassaraC. UrG. Lo BiancoA. ZucchiattiM. KmiecikA. MajW. MeczynskiG. Pollarolo

subject

Neutron-rich nucleiReacción InelásticaUNESCO::FÍSICAUNESCO::FÍSICA::Nucleónica::Física de partículasInelastic collision Neutron-rich nuclei Reaction products Semiclassical model Transfer channel; Angular distribution; CalciumReaction productsCanales de transmisiónSemiclassical modelCLARA–PRISMAReacción Inelástica ; CLARA–PRISMA ; Distribuciones angulares ; Secciones cruzadas ; Modelo semiclásico ; Canales de transmisión ; Muy corta vidaInelastic collisionDistribuciones angularesdeep inelastic reaction; semiclassical model; closed shell nuceli:FÍSICA [UNESCO]:FÍSICA::Nucleónica::Física de partículas [UNESCO]Muy corta vidaTransfer channelSecciones cruzadasCalciumAngular distributionModelo semiclásico

description

The deep inelastic reaction 48Ca+64Ni at 6 MeV/A has been studied using the CLARA–PRISMA setup. Angular distributions for pure elastic scattering and total cross-sections of the most relevant transfer channels have been measured. The experimental results are compared with predictions from a semiclassical model, showing good agreement for the presently analyzed few neutrons transfer channels. The decay of the most intense reaction products has also been studied, giving indications of the population of states with very short lifetimes. Gadea Raga, Andrés, Gadea.Andres@ific.uv.es

yearjournalcountryeditionlanguage
2009-01-01
http://hdl.handle.net/10550/13007