Shape coexistence in 66Se

Z Elekes,T Motobayashi,L Stuhl,K Miki,A Kurihara,Z Korkulu,Y Togano,M Sasano,H Miki,Y Yoshitome,L Trache,Y Kondo,Z Halász,V Panin,D Tudor,K Sieja,H Baba,T Uesaka,J Gibelin,D Kim,I Kuti,N Fukuda,H Otsu,T Tomai,K Yoneda,Y Shimizu,Cs Dósa,Y Utsuki,A Saastamoinen,T Isobe,Hiromi Sato ,Jingnan Gao ,T R Rodríguez ,L G Sobotka ,Akio Yasuda ,Tsutomu Shimada ,I Ştefânescu ,Hiroyuki Takeda ,Siwei Huang ,Ariadna Ştefǎnescu ,Michael Juhasz ,Handing Wang ,D S Ahn ,Ali Al-Adili ,K I Hahn ,K J Cook ,Toshio Kobayashi ,Hiroshi Suzuki

doi:10.1016/j.physletb.2023.138072

Abstract

The nuclear structure of 66Se, nucleus beyond the N=Z line on the proton-rich side of the valley of stability, was investigated by the neutron knock-out reaction 67Se(12C,X)66Se using a 12C target. The analysis of the singles spectrum of the γ-rays emitted during the de-excitation of the populated low-lying excited states revealed two previously detected (927(4) keV, 1460(32) keV) and three new (744(6) keV, 1210(17) keV, 1661(23) keV) transitions. The 744-keV, the 1210-keV, and the 1460-keV transitions were found to be in coincidence with the one at 927 keV. The spectrum coincident with the 927-keV transition showed a further possible transition at 299(35) keV, which was obscured by significant atomic background in the singles spectrum. This transition might correspond to a peak previously reported at 273(5) keV that could not be assigned to 66Se unambiguously. Based on a comparison of the experimental data to theoretical calculations, four new excited states are proposed which suggest that 66Se exhibits shape coexistence.

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