Bound-state energy of double magic number plus one nucleon nuclei with relativistic mean-field approach

被引:0
|
作者
M MOUSAVI
M R SHOJAEI
机构
[1] Shahrood University of Technology,Department of Physics
来源
Pramana | 2017年 / 88卷
关键词
Shell model; Dirac equation; Eckart potential; Hulthen potential; parametric Nikiforov–Uvarov method.; 21.10.Dr;
D O I
暂无
中图分类号
学科分类号
摘要
In this work, we have obtained energy levels and charge radius for the β-stability line nucleus, in relativistic shell model. In this model, we considered a close shell for each nucleus containing double magic number and a single nucleon energy level. Here we have taken 41Ca with a single neutron in the 40Ca core as an illustrative example. Then we have selected the Eckart plus Hulthen potentials for interaction between the core and the single nucleon. By using parametric Nikiforov–Uvarov (PNU) method, we have calculated the energy values and wave function. Finally, we have calculated the charge radius for 17O, 41Ca, 49Ca and 57Ni. Our results are in agreement with experimental values and hence this model can be applied for similar nuclei.
引用
收藏
相关论文
共 47 条
  • [31] Systematic calculation on the ground state properties of odd-even superheavy nuclei with relativistic mean-field theory
    Chen, DH
    Tai, F
    Ren, ZZ
    HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS-CHINESE EDITION, 2003, 27 (08): : 707 - 711
  • [32] Search of Possible Double Magic Nuclei in the Superheavy Valley Using Relativistic Mean Field Density Depending Coupling Models
    Sahoo T.
    Biswal S.K.
    Acharya A.
    Physics of Particles and Nuclei Letters, 2018, 15 (6) : 585 - 600
  • [33] GROUND STATE OCCUPATION PROBABILITIES OF VALENCE NUCLEON PAIRS IN EVEN-EVEN NUCLEI IN THE NILSSON MEAN-FIELD PLUS THE NEAREST-ORBIT PAIRING MODEL
    Bao, Lina
    Li, Hang
    Li, Bo
    Pan, Shanshan
    Ding, Xiaoxue
    Pan, Feng
    Draayer, J. P.
    NUCLEAR STRUCTURE IN CHINA 2012, 2013, : 23 - 26
  • [34] Octupole degree of freedom for nuclei near 152Sm in a reflection-asymmetric relativistic mean-field approach
    Zhang, W.
    Li, Z. P.
    Zhang, S. Q.
    Meng, J.
    INTERNATIONAL NUCLEAR PHYSICS CONFERENCE 2010 (INPC): NUCLEAR STRUCTURE, 2011, 312
  • [35] RELATIVISTIC 2-BODY PLUS POTENTIAL PROBLEM - COMPATIBLE EQUATIONS AND DOUBLE BOUND-STATE SOLUTIONS (2-FERMION CASE)
    BIJTEBIER, J
    NUOVO CIMENTO DELLA SOCIETA ITALIANA DI FISICA A-NUCLEI PARTICLES AND FIELDS, 1990, 103 (05): : 639 - 651
  • [36] Binding energy differences of mirror nuclei in a time-odd triaxial relativistic mean field approach
    Chen, H.
    Mei, H.
    Meng, J.
    Yao, J. M.
    PHYSICAL REVIEW C, 2007, 76 (04):
  • [37] EFFECTIVE NUCLEON MASS, INCOMPRESSIBILITY, AND 3RD DERIVATIVE OF NUCLEAR-BINDING ENERGY IN THE NONLINEAR RELATIVISTIC MEAN-FIELD THEORY
    KOUNO, H
    KAKUTA, N
    NODA, N
    KOIDE, K
    MITSUMORI, T
    HASEGAWA, A
    NAKANO, M
    PHYSICAL REVIEW C, 1995, 51 (04) : 1754 - 1761
  • [38] Cumulants of the baryon number from central Au plus Au collision at Elab=1.23 GeV/nucleon reveal the nuclear mean-field potentials
    Ye, Yunxiao
    Wang, Yongjia
    Steinheimer, Jan
    Nara, Yasushi
    Xu, Hao-jie
    Li, Pengcheng
    Lu, Dinghui
    Li, Qingfeng
    Stoecker, Horst
    PHYSICAL REVIEW C, 2018, 98 (05)
  • [39] Ground-state properties of rare-earth nuclei in the Nilsson mean-field plus extended-pairing model
    Guan, Xin
    Launey, Kristina D.
    Wang, Yin
    Pan, Feng
    Draayer, Jerry P.
    PHYSICAL REVIEW C, 2015, 92 (04):
  • [40] STUDY OF TWO-PROTON RADIOACTIVITY WITHIN THE RELATIVISTIC MEAN-FIELD PLUS BCS APPROACH (vol 21, 1250076, 2012)
    Singh, D.
    Saxena, G.
    Kaushik, M.
    Yadav, H. L.
    Toki, H.
    INTERNATIONAL JOURNAL OF MODERN PHYSICS E-NUCLEAR PHYSICS, 2013, 22 (09)
12345