6533b822fe1ef96bd127cb63
RESEARCH PRODUCT
High-spin studies of the neutron deficient nuclei 103In, 105In, 107In, and 109In
Johan NybergM. GórskaM. GórskaF. LidénJenny L. PerssonRamon WyssClaes FahlanderS. TörmänenAri VirtanenG PerezM. PalaczD. FoltescuBo CederwallP. BednarczykWlodzimierz KlamraLars-olov NorlinM. PiiparinenAndrej LikarS. JuutinenJ. KownackiH. GraweG. SlettenJoakim CederkällD. SeweryniakD. SeweryniakG. De AngelisM. De PoliE. AdamidesDan JerrestamM. KarnyE MakelaZsolt DombrádiE. IdeguchiAndras KerekA. JohnsonJ SkeppstedtM LipoglavsekS. MitaraiR. JulinA. AtacH. A. RothT ShizumaT VassR. Schubartsubject
PhysicsNuclear and High Energy PhysicsIsotopeNuclear shell modelchemistry.chemical_elementNuclear physicschemistryExcited stateNeutron detectionNeutronAtomic physicsNuclear ExperimentSpin (physics)IndiumBeam (structure)description
High-spin states of the isotopes In-103,In-105,In-107,In-109 have been investigated using in-beam gamma-ray spectroscopic methods. Results from three different experiments are presented. Targets of Fe-54, Cr-50, and Mo-92 were bombarded by a 270 and 261 MeV Ni-58 beam and by a 95 MeV F-19 beam, respectively. Reaction channel separation was achieved with a charged-particle detector array and in the first two experiments also with a 1 pi neutron detector system. As a result of these experiments the level schemes of In-103,In-105,In-107,In-109 were significantly extended. Excited states of these odd-A indium isotopes are discussed within the framework of the nuclear shell model and the hole-core coupling scheme. The systematics of excited states of light odd-A indium isotopes is also discussed. (C) 1997 Elsevier Science B.V.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1997-12-01 | Nuclear Physics A |