摘要
The stability of super heavy nuclei(SHN) from Z =104 to Z =126 is analyzed systematically,associated with the following theoretical mass tables: FRDM2012 [At.Data Nucl.Data Tables 109-110(2016)],WS2010 [Phys.Rev.C 82,044304(2010)],WS-LZ-RBF [J.Phys.G: Nucl.Part.Phys.42,095107(2015)] and the updated experimental data AME2016 [Chinese Physics C 41,040002(2017)].The nucleus with the biggest mean binding energy in each isotopic chain shows systematic regular behavior,indicating that the mean binding energy is a good criterion to classify SHN by their stability.Based on binding energy,the α-decay energy Qα,two-proton separation energy S2p,and two-neutron separation energy S2n are extracted and analyzed.It is found that N =152 and N =162 are sub-magic numbers,N = 184 is a neutron magic number,and Z = 114 is a proton magic number,which may provide useful information for the synthesis and identification of SHN.
The stability of super heavy nuclei(SHN) from Z =104 to Z =126 is analyzed systematically,associated with the following theoretical mass tables: FRDM2012 [At.Data Nucl.Data Tables 109-110(2016)],WS2010 [Phys.Rev.C 82,044304(2010)],WS-LZ-RBF [J.Phys.G: Nucl.Part.Phys.42,095107(2015)] and the updated experimental data AME2016 [Chinese Physics C 41,040002(2017)].The nucleus with the biggest mean binding energy in each isotopic chain shows systematic regular behavior,indicating that the mean binding energy is a good criterion to classify SHN by their stability.Based on binding energy,the α-decay energy Qα,two-proton separation energy S2p,and two-neutron separation energy S2n are extracted and analyzed.It is found that N =152 and N =162 are sub-magic numbers,N = 184 is a neutron magic number,and Z = 114 is a proton magic number,which may provide useful information for the synthesis and identification of SHN.
基金
Supported by National Natural Science Foundation of China(11675066,11647306)
Fundamental Research Funds for the Central Universities(lzujbky-2017-ot04)
Feitian Scholar Project of Gansu province
