Nucleus ^{26}O: A Barely Unbound System beyond the Drip Line.

Y Kondo,S Leblond,T Murakami,N Fukuda,T Motobayashi,P Doornenbal,R Tanaka,T Isobe,K Yoneda,T Aumann,S Ogoshi,R Minakata,N Kobayashi,T Nakashima,H Otsu,Y Togano,Y Satou,A Navin,J Gibelin,H Baba,S Kim,D Murai,F Delaunay,T Kubo,N Nakatsuka,J Lee,M Vandebrouck,D Kameda,Y Shimizu,N Inabe,D Kanno,Toshio Kobayashi ,Seiji Nishi ,Satoshi Takeuchi ,Hiroshi Suzuki ,Jongwon Hwang ,A G Tuff ,Kazuaki Takahashi ,F M Marqués ,Takashi Nakamura ,N L Achouri ,N A Orr ,Hiromi Sato ,Hiroyuki Takeda ,Kotomi Muto

doi:10.1103/physrevlett.116.102503

Abstract

The unbound nucleus ^{26}O has been investigated using invariant-mass spectroscopy following one-proton removal reaction from a ^{27}F beam at 201 MeV/nucleon. The decay products, ^{24}O and two neutrons, were detected in coincidence using the newly commissioned SAMURAI spectrometer at the RIKEN Radioactive Isotope Beam Factory. The ^{26}O ground-state resonance was found to lie only 18±3(stat)±4(syst) keV above threshold. In addition, a higher lying level, which is most likely the first 2^{+} state, was observed for the first time at 1.28_{-0.08}^{+0.11} MeV above threshold. Comparison with theoretical predictions suggests that three-nucleon forces, pf-shell intruder configurations, and the continuum are key elements to understanding the structure of the most neutron-rich oxygen isotopes beyond the drip line.

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