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Ground State Properties of Z = 114 Isotopes in the Relativistic Mean-Field Theory |
REN Zhong-zhou1;ZHU Zhi-yuan2,3;CAI Yan-huang2,3;SHEN Yao-song1;ZHAN Wen-long4;XU Gong-ou1 |
1Department of Physics, Nanjing University, Nanjing 210008
2Institute of Nuclear Research, Chinese Academy of Sciences, Shanghai 201800
3CCAST (World Laboratory), Beijing 100080
4Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000
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Cite this article: |
REN Zhong-zhou, ZHU Zhi-yuan, CAI Yan-huang et al 1997 Chin. Phys. Lett. 14 259-262 |
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Abstract The ground state properties of even-even Z = 114 nuclei have been investigated in the relativistic mean-field theory with inclusion of deformations. The calculated binding energies agree well with values from macroscopic mass models. Calculations show that there exists a spherical shell. at N = 184, because the quadrupole deformation at N = 184 is zero. For nuclei near N = 162, there are small prolate deformations.
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Keywords:
21.60.Jz
21.10.Dr
27.90.+b
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Published: 01 April 1997
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PACS: |
21.60.Jz
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(Nuclear Density Functional Theory and extensions (includes Hartree-Fock and random-phase approximations))
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21.10.Dr
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(Binding energies and masses)
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27.90.+b
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(A ≥ 220)
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Abstract
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