Observation of the near-threshold intruder 0− resonance in Be12

J Chen,D Bazin,D T Tran,H L Zang,C X Yuan,J C Pei,Wei Zuo ,Chao Wen ,Q.t Li ,J.g Li ,H.n Liu ,Dan Pang ,Hooi Jin Ong ,Yuchen Ge ,Wei Jiang ,Y.n Zhang ,Y.l Ye ,X F Yang ,Xu Fang ,Z.h Li ,Tetsuya Yamamoto ,Y Sun ,Y Ayyad,M Tanaka,J Lee,N Michel,H Hua,J L Lou,J Li,S M Wang,H T Fortune,D X Jiang,K Hatanaka,E Ideguchi,J Wu,N Aoi,Tomokazu Suzuki

doi:10.1103/physrevc.103.l031302

Observation of the near-threshold intruder 0− resonance in Be12

J Chen, D Bazin + Show 35 more

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https://doi.org/10.1103/physrevc.103.l031302

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Journal: Physical Review C	Publication Date: Mar 17, 2021
Citations: 12

Affiliation: Michigan State University, Peking University, University of Chinese Academy of Sciences, Chinese Academy of Sciences, Institute of Modern Physics, RIKEN, Osaka University, Western Michigan University, University of Pennsylvania

#Transfer Reaction In Inverse Kinematics #Reaction In Inverse Kinematics + Show 8 more

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Abstract

A resonant state at $3.21^{+0.12}_{-0.04}$\,MeV, located just above the one-neutron separation threshold, was observed for the first time in $^{12}$Be from the $^{11}$Be\,$(d,p)^{12}$Be one-neutron transfer reaction in inverse kinematics. This state is assigned a spin-parity of $0^-$, according to the distorted-wave Born approximation (DWBA) and decay-width analysis. Gamow coupled-channel (GCC) and Gamow shell-model (GSM) calculations show the importance of the continuum-coupling, which dramatically influences the excitation energy and ordering of low-lying states. Various exotic structures associated with cross-shell intruding configurations in $^{12}$Be and in its isotonic nucleus $^{11}$Li are comparably discussed.

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