Evolution of nuclear structure through isomerism in Fr-216
- NázevTitle
- Evolution of nuclear structure through isomerism in Fr-216Evolution of nuclear structure through isomerism in Fr-216
- Druh výsledkuResult type
- Článek v časopiseJournal article
- AutořiAuthors
- X. Madhu, K. Yadav, A. Y. Deo, P. C. Srivastava, S. Bhattacharjee
- DOIDOI
- 10.1103/PhysRevC.105.034308
- Časopis / citaceJournal / citation
- PHYSICAL REVIEW C. 2022, 105(3), 1-8. ISSN 2469-9985.
- RokYear
- 2022
- JazykLanguage
- eng
- WoSWoS
- 000766661000002
- ScopusScopus
- 2-s2.0-85126696882
- RIVRIV
- RIV/68407700:21670/22:00358571!RIV23-MSM-21670___
- ProjektProject
- Institucionální podpora na rozvoj výzkumné org.Institucionální podpora na rozvoj výzkumné org.
AbstraktAbstract
Three new isomers have been identified in the transitional odd-odd Fr-216 nucleus. The properties of the (11(+)) isomer with T-1/2 = 9.6(14) ns are compared with those of the similar isomeric states in neighboring doubly-odd nuclei. The experimental results are compared with predictions of shell-model calculations and a fair agreement is observed between the experimental and calculated excitation energies of the (11(+)) isomeric state and the states to which it decays. The deviation between the measured and calculated reduced transition probabilities suggests contribution from effects other than the single-particle degrees of freedom in these states. Evidence of two high-spin [J(pi) > (18(+))] isomers above 2.2 MeV excitation energy with T-1/2 = 7.8(14) and 89(9) ns is also presented. These isomers at high excitation energies reflect a pronounced change in the structure above the previously established level scheme, where moderate quadrupole collectivity and octupole correlations were evident.
Three new isomers have been identified in the transitional odd-odd Fr-216 nucleus. The properties of the (11(+)) isomer with T-1/2 = 9.6(14) ns are compared with those of the similar isomeric states in neighboring doubly-odd nuclei. The experimental results are compared with predictions of shell-model calculations and a fair agreement is observed between the experimental and calculated excitation energies of the (11(+)) isomeric state and the states to which it decays. The deviation between the measured and calculated reduced transition probabilities suggests contribution from effects other than the single-particle degrees of freedom in these states. Evidence of two high-spin [J(pi) > (18(+))] isomers above 2.2 MeV excitation energy with T-1/2 = 7.8(14) and 89(9) ns is also presented. These isomers at high excitation energies reflect a pronounced change in the structure above the previously established level scheme, where moderate quadrupole collectivity and octupole correlations were evident.