6533b7cffe1ef96bd1257e2b
RESEARCH PRODUCT
Spectroscopy along flerovium decay chains. II : Fine structure in odd-A289Fl
D. M. CoxA. Såmark-rothD. RudolphL. G. SarmientoR. M. ClarkJ. L. EgidoP. GolubevJ. HeeryA. YakushevS. ÅBergH. M. AlbersM. AlbertssonM. BlockH. BrandT. CalverleyR. CantemirB. G. CarlssonCh. E. DüllmannJ. EberthC. FahlanderU. ForsbergJ. M. GatesF. GiacoppoM. GötzS. GötzR.-d. HerzbergY. HrabarE. JägerD. JudsonJ. KhuyagbaatarB. KindlerI. KojouharovJ. V. KratzJ. KrierN. KurzL. LensJ. LjungbergB. LommelJ. LoukoC.-c. MeyerA. MistryC. MokryP. PapadakisE. ParrJ. L. PoreI. RagnarssonJ. RunkeM. SchädelH. SchaffnerB. SchaustenD. A. ShaughnessyP. Thörle-pospiechN. TrautmannJ. Uusitalosubject
ydinfysiikkadescription
Fifteen correlated α-decay chains starting from the odd-A superheavy nucleus 289Fl were observed following the fusion-evaporation reaction 48Ca+244Pu. The results call for at least two parallel α-decay sequences starting from at least two different states of 289Fl. This implies that close-lying levels in nuclei along these chains have quite different spin-parity assignments. Further, observed α-electron and α-photon coincidences, as well as the α-decay fine structure along the decay chains, suggest a change in the ground-state spin assignment between 285Cn and 281Ds. Our experimental results, on the excited level structure of the heaviest odd-N nuclei to date, provide a direct testing ground for theory. This is illustrated by comparison with new nuclear structure calculations based on the symmetry-conserving configuration mixing theory. peerReviewed
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2023-01-01 |