Lawrie, Elena A.Orce, Jos e N.Wakudyanaye, Ignasio2022-03-172024-10-302022-03-172024-10-302021https://hdl.handle.net/10566/16550>Magister Scientiae - MScThe neutron-de cient nuclei between the N = 50 and N = 82 shell closures provide rich information on the shape and structure of the nucleus. The isotones of 133Ce and 131Ba (N = 75) lie in this region of the nuclear chart. The properties of two recently discovered positive-parity rotational bands based on the g7=2 orbital were studied in this work. The rotational bands in both nuclei are based on the 7=2+ state. The quasiparticle+triaxial rotor (QTR) model was used to understand the dependence of the excitation energies and the signature splitting in these bands as a function of triaxiality. In addition to triaxiality, the e ects of the Coriolis interaction on the excitation energies and the signature splitting was also investigated.enSignature splittingWobblingNuclear triaxialityTilted precessionRotational bandsUniversity of Western Cape