Zhen Bai
Chinese Academy of Sciences
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Zhen Bai.
Journal of Physics: Conference Series | 2013
J. S. Wang; Y.Y. Yang; Q. Wang; Li-Min Jin; J.B. Ma; M. Huang; J.L. Han; P. Ma; S. L. Jin; Zhen Bai; Qiang Hu; Jun Chen; R. Wada; Z. Y. Sun; R.F. Chen; Xinghua Zhang; Z. G. Hu; X. Yuan; X.G. Cao; Zhongmin Xu; S. W. Xu; C. Zhen; Z. Chen; S. Chen; Cheng-Ming Du; Limin Duan; Fen Fu; B.X. Gou; J. F. Hu; J.J. He
Angular distributions for the elastic scattering of 7Be and 8B by an enriched 208Pb target were measured at the Radioactive Ion Beam Line at Lanzhou (RIBLL). The incident energies of the radioactive beams were about three times the respective Coulomb barriers. A suppressed Coulomb-nuclear Interference Peak (CNIP) is not observed for 8B, a pronounced proton halo nucleus. Optical model fits were performed using Woods-Saxon potentials and the total reaction cross sections deduced. The results are discussed.
Physical Review C | 2014
Ying Yang; J. S. Wang; Q. Wang; D. Y. Pang; J. B. Ma; M. Huang; P. Ma; S. L. Jin; J. L. Han; Zhen Bai; L. Jin; J. Chen; Q. Hu; R. Wada; S. Mukherjee; Z. Y. Sun; R. F. Chen; X. Y. Zhang; Z. G. Hu; X. Yuan; S. W. Xu; S. Chen; X. G. Lei; L. X. Liu; W. H. Ma; S. T. Wang; D. Yan; X. H. Zhang; M. H. Zhao; Y. Zhou
Angular distributions of the differential cross sections for the quasi-elastic scattering from a Pb-nat target by C-10 at 226 and 256 MeV, by C-11 at 222 MeV and 226 MeV, and by B-10 at 173 MeV were measured at the Heavy Ion Research Facility in Lanzhou, Radioactive Ion Beam Line in Lanzhou (HIRFL-RIBLL). Contributions from the inelastic scattering channels to these data are found to be negligibly small with coupled-channel calculations within the angular range covered by this experiment. These data can be well reproduced by optical model calculations with systematic nucleus-nucleus potentials. The reduced total reaction cross sections were compared with other existing data
Chinese Physics C | 2018
Hong-Liang Zang; Y. Ye; Z. H. Li; J.Z. Wang; J. L. Lou; Q. Li; Y. C. Ge; Xiaofei Yang; Jing Li; Wei Jiang; Jun Feng; Qiang Liu; Biao Yang; Z. Chen; Yang Liu; HongYi Wu; C.Y. Niu; ChenGuang Li; ChunGuang Wang; Xiang Wang; Wei Liu; Jian Gao; H. W. Yu; Jun-Bin Ma; P. Ma; Zhen Bai; Yan-Yun Yang; S. L. Jin; Fei Lu
An experiment for m p(14C},14C*→10Be+α)p inelastic excitation and decay was performed in inverse kinematics at a beam energy of 25.3 MeV/u. A series of 14C excited states, including a new one at 18.3(1) MeV, were observed which decay to various states of the final nucleus of 10Be. A specially designed telescope system, installed around zero degrees, played an essential role in detecting the resonant states near the α-separation threshold. A state at 14.1(1) MeV is clearly identified, being consistent with the predicted band-head of the molecular rotational band characterized by the π-bond linear chain configuration. Further clarification of the properties of this exotic state is suggested by using appropriate reaction tools.
Proceedings of The 26th International Nuclear Physics Conference — PoS(INPC2016) | 2017
J.Z. Wang; S. L. Jin; Yan-Yun Yang; Zhen Bai; J.M. Ma; P. Ma; Xin-Quan Liu; W. H. Ma; Zhi-Hao Gao; Qiang Hu; Cheng-Jian Lin; Xin-Xing Xu
The longitudinal momentum distributions of the core-like fragment 7Be from the breakup of 8B on 12C target have measured at the energy of 36MeV/u at the Radioactive Ion Beam Line in Lanzhou (RIBLL). In order to distinguish the stripping and diffraction mechanisms involving in breakup reaction of 8B, both fragments of 7Be and proton are measured coincidently. With this coincident measurement, the widths of longitudinal momentum distribution are deduced with the values of 124±17MeV and 92±7 MeV for stripping and diffraction mechanism respectively. It is found that the longitudinal momentum width of stripping component is larger than that of diffraction component, which is different from the breakup reaction at high energy as around GeV/u. The theoretical calculations are compared with these experimental results.
Physical Review C | 2017
Lj Sun; Xx Xu; Dong-Mei Fang; Cj Lin; J. S. Wang; Z. H. Li; Yt Wang; J. Q. Li; L. Yang; Nr Ma; K Wang; Hl Zang; H. W. Wang; Chang Ming Li; Cz Shi; M. Nie; Xf Li; H. Li; Jb Ma; P. Ma; S. L. Jin; M.R. Huang; Zhen Bai; Jg Wang; F. Yang; Hm Jia; Hq Zhang; Z. H. Liu; Pf Bao; D. X. Wang
The
Physical Review C | 2017
Lj Sun; Xx Xu; Dong-Mei Fang; Cj Lin; J. S. Wang; Z. H. Li; Yt Wang; J. Q. Li; L. Yang; Nr Ma; K Wang; Hl Zang; H. W. Wang; Chang Ming Li; Cz Shi; M. Nie; Xf Li; H. Li; Jb Ma; P. Ma; S. L. Jin; Huang; Zhen Bai; Jg Wang; F. Yang; Hm Jia; Hq Zhang; Z. H. Liu; Pf Bao; D. X. Wang
\beta
Chinese Physics C | 2017
W. H. Ma; J.Z. Wang; S. Mukherjee; Qy Wang; D. Patel; Yan-Yun Yang; J.M. Ma; P. Ma; S. L. Jin; Zhen Bai; Xing-Quan Liu
decay of the drip-line nucleus
Advances in High Energy Physics | 2017
Gong-Ming Yu; Gao-Gao Zhao; Zhen Bai; Yan-Bing Cai; Hai-Tao Yang; J.Z. Wang
^{20}
Physical Review C | 2016
Lj Sun; Dong-Mei Fang; Yj Zhou; Jb Ma; Hq Zhang; Jg Wang; Z. H. Liu; W. H. Ma; Ying Yang; Yt Wang; M.R. Huang; H. W. Wang; K Wang; F. Yang; Chang Ming Li; Hm Jia; Pf Bao; J. Chen; L. Yang; P. Ma; Xx Xu; Cz Shi; D. X. Wang; H. Li; S. L. Jin; Z. H. Li; Hl Zang; Xf Li; Cj Lin; J. S. Wang
Mg gives important information on resonances in
Physical Review C | 2016
K Wang; J. G. Wang; X. H. Zhou; M. L. Liu; Y. H. Qiang; S. Guo; Z. Y. Zhang; B. F. Lv; B. S. Gao; Y. H. Zhang; Yangheng Zheng; G. S. Li; Y. D. Fang; B. Ding; W. Q. Zhang; K. K. Zheng; J. S. Wang; Y. Y. Yang; Zhen Bai; P. Ma; S. L. Jin; J. B. Ma; F. F. Duan; Xiang Zhang; L. Jiao; H. L. Wang
^{20}
