Projected Shell Model Studies for Neutron-rich Sr Isotopes

TIAN Yongwei; LIU Yanxin; TU Ya

doi:10.11804/NuclPhysRev.35.01.010

Recently, we have carried out systematically studies on the structural properties of proton number Z=38, neutron number N=63 and 64 neutron-rich isotopes ^101,102Sr by using the projected shell model (PSM) with consideration of cross shell excitation. The rotation spectra, the moment of inertia and the electromagnetic transition properties (such as B(E2) and g-factor) are calculated and compared with the corresponding experimental data in this paper. Furthermore, more high spin states are predicted in the calculation and expected to be confirmed experimentally. The results show that the PSM can not only well analyze the structural properties of yrast bands in ^101,102Sr but also interpret the variation of the moment of inertia, electromagnetic transition with spins in terms with the theoretical band diagram. The good agreement with the experimental data suggests that the PSM with the adopted effective interactions can be generalized to study the nuclear structure of ^101,102Sr isotopes in neutron-rich mass region. For ^101,102Sr isotopes, the nucleons begin to fill proton g_9/2 and neutron h_11/2 orbital, the dependence of nuclear structure and properties on the different orbital occupies is described by carefully analyzing the contribution from proton g_9/2 and neutron h_11/2 orbital to the configuration of rotational bands in band diagram.

Projected Shell Model Studies for Neutron-rich Sr Isotopes

1. College of Physics Science and Technology, Shenyang Normal University, Shenyang 110034, Liaoning, China;

2. College of Science, Huzhou University, Huzhou 313000, Zhejiang, China

Funds: National Natural Science Foundation of China (11305059, 11647306, 11475062, 11305108, 11575290, 11747312); Talents Plan of Shenyang Normal University; Doctoral Scientific Research Foundation of Liaoning Province; Liaoning Baiqianwan Talents Program

Received Date: 2017-09-25

Rev Recd Date: 2017-11-04

Publish Date: 2018-03-20

Key words:

Abstract: Recently, we have carried out systematically studies on the structural properties of proton number Z=38, neutron number N=63 and 64 neutron-rich isotopes ^101,102Sr by using the projected shell model (PSM) with consideration of cross shell excitation. The rotation spectra, the moment of inertia and the electromagnetic transition properties (such as B(E2) and g-factor) are calculated and compared with the corresponding experimental data in this paper. Furthermore, more high spin states are predicted in the calculation and expected to be confirmed experimentally. The results show that the PSM can not only well analyze the structural properties of yrast bands in ^101,102Sr but also interpret the variation of the moment of inertia, electromagnetic transition with spins in terms with the theoretical band diagram. The good agreement with the experimental data suggests that the PSM with the adopted effective interactions can be generalized to study the nuclear structure of ^101,102Sr isotopes in neutron-rich mass region. For ^101,102Sr isotopes, the nucleons begin to fill proton g_9/2 and neutron h_11/2 orbital, the dependence of nuclear structure and properties on the different orbital occupies is described by carefully analyzing the contribution from proton g_9/2 and neutron h_11/2 orbital to the configuration of rotational bands in band diagram.

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Reference (23)

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Projected Shell Model Studies for Neutron-rich Sr Isotopes

doi: 10.11804/NuclPhysRev.35.01.010

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