6533b7d0fe1ef96bd125acd9

RESEARCH PRODUCT

The role of the shape driving neutron orbital in 108Cd

S. TörmänenA. LampinenI. ThorslundRamon WyssAri VirtanenClaes FahlanderR. JulinT. LönnrothS. JuutinenD. MüllerM. PiiparinenM. PiiparinenJohan NybergJohan Nyberg

subject

PhysicsNuclear reactionNuclear and High Energy Physicsmedicine.anatomical_structureYrastmedicineNeutronProlate spheroidBand crossingAtomic physicsNucleus

description

Abstract The nucleus 108Cd has been studied using a heavy-ion reaction and the NORDBALL multi-detector array. The yrast band has been extended to Ip = 24+, and nine quasi-rotational side bands have been identified. The n h 11 2 negative-parity orbital is found to play a dominant role both in the low-spin as well as in the high-spin structure of 108Cd. The first band crossing in the yrast band is caused by the h 11 2 neutrons. The 10+ state of the aligned n( h 11 2 ) 2 configuration decays strongly into a low-lying low-spin intruder-like positive-parity band. It is suggested that this intruder structure is dominated by a non-aligned n( h 11 2 ) 2 configuration. For the first time in this mass region, we report a collective, possibly prolate, M1 band built on the p( g 9 2 ) −2 configuration. The experimental results are discussed in terms of total-routhian-surface and cranked-shell-model calculations.

yearjournalcountryeditionlanguage
1993-11-01Nuclear Physics A
https://doi.org/10.1016/0375-9474(93)90522-y