6533b854fe1ef96bd12aed7b
RESEARCH PRODUCT
Lifetime measurements in 166Re : Collective versus magnetic rotation
H. J. LiB. CederwallM. DoncelJ. PengQ. B. ChenS. Q. ZhangP. W. ZhaoJ. MengT. BäckUlrika JakobssonKalle AuranenS. BönigM. DrummondTuomas GrahnPaul GreenleesAndrej HerzanD. T. JossRauno JulinSakari JuutinenJoonas KonkiT. KröllMatti LeinoC. McpeakeD. O'donnellR. D. PageJanne PakarinenJari PartanenPauli PeuraPanu RahkilaPanu RuotsalainenMikael SandzeliusJan SarénB. SayğıCatherine ScholeyJuha SorriSanna StolzeM. J. TaylorA. ThornthwaiteJuha UusitaloZ. G. Xiaosubject
Nuclear Theorylifetimesrheniumexcited statesdescription
Lifetimes of excited states in the neutron-deficient odd-odd nucleus 166Re have been measured for the first time using the recoil distance Doppler-shift method. The measured lifetime for the (8−) state; τ = 480 (80) ps, enabled an assessment of the multipolarities of the γ rays depopulating this state. Information on electromagnetic transition strengths were deduced for the γ -ray transitions from the (9−), (10−), and (11−) states, and in the case of the (10−) and (11−) states limits on the B(M1) and B(E2) strengths were estimated. The results are compared with total Routhian surface predictions and semiclassical calculations. Tilted-axis cranking calculations based on a relativistic mean-field approach (TAC-RMF) have also been performed in order to test the possibility of magnetic rotation in the 166Re nucleus. While the TAC-RMF calculations predict a quadrupole-deformed nuclear shape with similar β2 deformation as obtained by using the TRS model, it was found that the experimental electromagnetic transition rates are in better agreement with a collective-rotational description. peerReviewed
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-01-01 |