6533b7d3fe1ef96bd1260716

RESEARCH PRODUCT

Backbending in the pear-shaped 223(90)Th nucleus: Evidence of a high-spin octupole to quadrupole shape transition in the actinides

G. MaquartL. AugeyL. ChaixI. CompanisC. DucoinJ. DudouetD. GuinetG. LehautC. MancusoN. RedonO. StézowskiA. VancraeyenestA. AstierF. AzaiezS. CourtinD. CurienI. DeloncleO. DorvauxG. DuchêneB. GallT. GrahnP. GreenleesA. HerzanK. HauschildU. JakobssonP. JonesR. JulinS. JuutinenS. KetelhutM. LeinoA. Lopez-martensP. NieminenP. PetkovP. PeuraM.g. PorquetP. RahkilaS. Rinta-antilaM. RousseauP. RuotsalainenM. SandzeliusJ. SarénC. ScholeyJ. SorriS. StolzeJ. Uusitalo

subject

octupole correlationNuclear Theorytoriumpear-shaped nuclei[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]Nuclear Experiment

description

International audience; Relatively neutron-rich thorium isotopes lie at the heart of a nuclear region of nuclei exhibiting octupole correlation effects. The detailed level structure of Th223 has been investigated in measurements of γ radiation following the fusion-evaporation channel of the Pb208(O18,3n)Th223 reaction at 85 MeV beam energy. The level structure has been extended up to spin 49/2, and 33 new γ rays have been added using triple-γ coincidence data. The spins and parities of the newly observed states have been confirmed by angular distribution ratios. In addition to the two known yrast bands based on a K=5/2 configuration, a non-yrast band has been established up to spin 35/2. We interpret this new structure as based on the same configuration as the yrast band in Th221 having dominant K=1/2 contribution. At the highest spin a backbending occurs around a rotational frequency of ℏω=0.23 MeV, very close to the one predicted in Th222, where a sharp transition to a reflection-symmetric shape is expected.

yearjournalcountryeditionlanguage
2017-01-01
http://urn.fi/URN:NBN:fi:jyu-201704071931