Author:
Sun 孙 M.Z. 铭泽,Yu 于 Y. 越,Wang 王 X.P. 新鹏,Wang 王 M. 猛,Li 李 J.G. 健国,Zhang 张 Y.H. 玉虎,Blaum K.,Chen 陈 Z.Y. 祖毅,Chen 陈 R.J. 瑞九,Deng 邓 H.Y. 涵宇,Fu 付 C.Y. 超义,Ge 葛 W.W. 文文,Huang 黄 W.J. 文嘉,Jiao 焦 H.Y. 红扬,Li 李 H.H. 红蕙,Li 李 H.F. 宏福,Luo 罗 Y.F. 胤芳,Liao 廖 T. 挺,Litvinov Yu.A.,Si 司 M. 敏,Shuai 帅 P. 鹏,Shi 史 J.Y. 金阳,Wang 王 Q. 茜,Xing 邢 Y.M. 元明,Xu 徐 X. 星,Xu 徐 H.S. 瑚珊,Xu 许 F.R. 甫荣,Yuan 袁 Q. 琪,Yamaguchi T.,Yan 颜 X.L. 鑫亮,Yang 杨 J.C. 建成,Yuan 原 Y.J. 有进,Zhou 周 X.H. 小红,Zhou 周 X. 旭,Zhang 张 M. 敏,Zeng 曾 Q. 奇
Abstract
Abstract
The ground-state mass excess of the
drip-line nucleus
Al is measured for the first time as
keV using the newly-developed B
ρ-defined isochronous mass spectrometry method at the cooler storage ring in Lanzhou. The new mass excess value allowed us to determine the excitation energies of the two low-lying
states in
Al with significantly reduced uncertainties of 51 keV. When compared to the analogue states in its mirror nucleus
F, the mirror energy differences of the two
states in the
Al-
F mirror pair are determined to be
keV and
keV. The excitation energies and mirror energy differences are used to test the state-of-the-art ab initio valence-space in-medium similarity renormalization group calculations with four sets of interactions derived from the chiral effective field theory. The mechanism leading to the large mirror energy differences is investigated and attributed to the occupation of the
orbital.
Funder
the CAS Project for Young Scientists in Basic Research
the National Key R&D Program of China
the Strategic Priority Research Program of Chinese Academy of Sciences
the Gansu Natural Science Foundation
National Natural Science Foundation of China
the Youth Innovation Promotion Association of Chinese Academy of Sciences
Young Scholar of Regional Development, CAS
Cited by
4 articles.
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