Shell Evolution towards ^{78}Ni: Low-Lying States in ^{77}Cu.

E Šahin ,F Naqvi,P Doornenbal,P Morfouace,R Taniuchi,T Sumikama,D Mengoni,M.-C Delattre,T Kubo,Z Li,A Görgen,V Werner,P.-A Söderström,D Sohler,G Lorusso,Y Tsunoda,S Nishimura,D Suzuki,J Wu,G De Angelis,H Schaffner,H Baba,I Kojouharov,K Matsui,G Gey,H Watanabe,N Kurz,S Franchoo,J Taprogge,F Browne,T Isobe,K Yoshinaga,A Odahara,A Yagi,F L Bello Garrote ,H S Jung ,M Nııkura ,K Hadyńska-Klk ,I Stefan ,H Nıshıbata ,H Sakuraï ,D R Napoli ,M Yalçınkaya ,I Matéa ,Takaharu Otsuka ,Zs Vajta ,P R John ,Z Y Xu

doi:10.1103/physrevlett.118.242502

Abstract

The level structure of the neutron-rich ^{77}Cu nucleus is investigated through β-delayed γ-ray spectroscopy at the Radioactive Isotope Beam Factory of the RIKEN Nishina Center. Ions of ^{77}Ni are produced by in-flight fission, separated and identified in the BigRIPS fragment separator, and implanted in the WAS3ABi silicon detector array, surrounded by Ge cluster detectors of the EURICA array. A large number of excited states in ^{77}Cu are identified for the first time by correlating γ rays with the β decay of ^{77}Ni, and a level scheme is constructed by utilizing their coincidence relationships. The good agreement between large-scale MonteCarlo shell model calculations and experimental results allows for the evaluation of the single-particle structure near ^{78}Ni and suggests a single-particle nature for both the 5/2_{1}^{-} and 3/2_{1}^{-} states in ^{77}Cu, leading to doubly magic ^{78}Ni.

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