Development of axial asymmetry in the neutron-rich nucleus 110Mo

H Watanabe,G Lorusso,Zs Podolyák,K Tajiri,C Hinke,S Go,P Doornenbal,Y Wakabayashi,M Kurata-Nishimura,F Camera,T Nakano,E Ideguchi,K Yoshinaga,N Kobayashi,T Sumikama,L Próchniak,Z Li,R Krücken,A Odahara,S Ota,D Steppenbeck,T Isobe,Y Kondo,O Wieland,H Baba,J Chiba,S Kubono,Y Kawada,H Scheit,Y Miyashita,A Bracco,S Nishimura,N Blasi,Koichi Sato ,Shinjiro Hayakawa ,Takashi Teranishi ,D G Jenkins ,Takashi Nakatsukasa ,Shinjiro Takano ,Yuji Ito ,P M Walker ,Kenji Yamaguchi ,J S Berryman ,Takashi Hashimoto ,Akira Takashima ,H J Ong ,Nobuo Hinohara ,Katsuhisa Sugimoto ,H Sakuraï ,Katja Steiger ,Hideyo Yamaguchi

doi:10.1016/j.physletb.2011.09.050

H Watanabe, G Lorusso + Show 49 more

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https://doi.org/10.1016/j.physletb.2011.09.050

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The neutron-rich nucleus 110Mo has been investigated by means of γ-ray spectroscopy following the β-decay of 110Nb, produced using in-flight fission of a 238U beam at 345 MeV/nucleon at the RIBF facility. In addition to the ground-band members reported previously, spectroscopic information on the low-lying levels of the quasi-γ band built on the second 2+ state at 494 keV has been obtained for the first time. The experimental finding of the second 2+ state being lower than the yrast 4+ level suggests that axially-asymmetric γ softness is substantially enhanced in this nucleus. The experimental results are compared with model calculations based on the general Bohr Hamiltonian method. The systematics of the low-lying levels in even–even A≈110 nuclei is discussed in comparison with that in the neutron-rich A≈190 region, by introducing the quantity ES/E(21+), ES=E(22+)−E(41+), as a global signature of the structural evolution involving axial asymmetry.

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