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基于HI-13串列加速器在束γ终端原子核激发态寿命测量的核结构研究
引用本文:郑云,吴晓光,李广生,李聪博,陈启明,竺礼华,贺创业,郝昕,王烈林,姚顺和,刘颖,李立华,汪金龙,钟健,周文奎,邓利涛,朱宝吉. 基于HI-13串列加速器在束γ终端原子核激发态寿命测量的核结构研究[J]. 原子核物理评论, 2016, 33(4): 375-384. DOI: 10.11804/NuclPhysRev.33.04.375
作者姓名:郑云  吴晓光  李广生  李聪博  陈启明  竺礼华  贺创业  郝昕  王烈林  姚顺和  刘颖  李立华  汪金龙  钟健  周文奎  邓利涛  朱宝吉
作者单位:1.中国原子能科学研究院, 北京 102413;
基金项目:国家自然科学基金资助项目(11305269,11375267,11475072,11405274,11205068,11175259)
摘    要:利用在HI-13串列加速器的在束γ终端上建立的多普勒线移衰减法、反冲距离多普勒线移法和快时间延迟符合法等3种寿命测量方法,开展了原子核手征对称性、磁转动等核结构热点课题的研究工作。实验结果表明,130Cs的伙伴带具有很好的手征特性,而106Ag的候选带并非手征双带。根据测量的能级寿命提取的B(M1)值表明,106Ag的正宇称晕带和107Ag的正、负宇称晕带都具有典型的磁转动特性。此外,寿命测量数据还为解释和理解不同的同位素链中展现出的形状演化、形状共存、形状相变及临界点对称性等物理现象提供了有价值的实验证据。 The significance and principle of lifetime measurements of excited states in nuclei are briefly described. By using the recoil-distance Doppler-shift method, the Doppler-shift attenuation method, and the fast-timing technique established at the in-beam γ terminal of HI-13 tandem accelerator, nuclear structure studies on topical subjects including chiral symmetries and magnetic rotation have been performed. Our experimental results indicate that 130Cs shows better chiral characteristics, however, the two candidate bands of 106Ag could not be a pair of chiral doublet bands. For magnetic rotation, the deduced B(M1) values deduced from the measured level lifetimes clearly demonstrate that the yrast positive-parity band in 106Ag and both the yrast positiveand negative-parity bands in 107Ag are magnetic rotation bands. In addition, our lifetime measurement data also provide valuable experimental evidences for the interpretation and understanding of the shape evolution, the shape coexistence, and the critical-point symmetries of shape phase transition in the different isotope chains.

关 键 词:能级寿命   核结构   多普勒线移衰减法   反冲距离多普勒线移法   快时间延迟符合法
收稿时间:2016-06-07

Nuclear Structure Studies Based on the Lifetime Measurements of Excited States in Nuclei at the in-beam γ Terminal of HI-13 Tandem Accelerator
ZHENG Yun,WU Xiaoguangn,LI Guangsheng,LI Congbo,CHEN Qiming,ZHU Lihua,HE Chuangye,HAO Xin,WANG Lielin,YAO Shunhe,LIU Ying,LI Lihua,WANG Jinlong,ZHONG Jian,ZHOU Wenkui,DEN Litao,ZHU Baoji. Nuclear Structure Studies Based on the Lifetime Measurements of Excited States in Nuclei at the in-beam γ Terminal of HI-13 Tandem Accelerator[J]. Nuclear Physics Review, 2016, 33(4): 375-384. DOI: 10.11804/NuclPhysRev.33.04.375
Authors:ZHENG Yun  WU Xiaoguangn  LI Guangsheng  LI Congbo  CHEN Qiming  ZHU Lihua  HE Chuangye  HAO Xin  WANG Lielin  YAO Shunhe  LIU Ying  LI Lihua  WANG Jinlong  ZHONG Jian  ZHOU Wenkui  DEN Litao  ZHU Baoji
Affiliation:1.China Institute of Atomic Energy, Beijing 102413, China;2.Beihang University, Beijing 100191, China;3.Shenzhen University, Shenzhen 518060, China
Abstract:The significance and principle of lifetime measurements of excited states in nuclei are briefly described. By using the recoil-distance Doppler-shift method, the Doppler-shift attenuation method, and the fast-timing technique established at the in-beam γ terminal of HI-13 tandem accelerator, nuclear structure studies on topical subjects including chiral symmetries and magnetic rotation have been performed. Our experimental results indicate that 130Cs shows better chiral characteristics, however, the two candidate bands of 106Ag could not be a pair of chiral doublet bands. For magnetic rotation, the deduced B(M1) values deduced from the measured level lifetimes clearly demonstrate that the yrast positive-parity band in 106Ag and both the yrast positiveand negative-parity bands in 107Ag are magnetic rotation bands. In addition, our lifetime measurement data also provide valuable experimental evidences for the interpretation and understanding of the shape evolution, the shape coexistence, and the critical-point symmetries of shape phase transition in the different isotope chains.
Keywords:level lifetime  nuclear structure  doppler-shift attenuation method  recoil distance doppler-shift  fast-timing delayed coincidence
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