摘要
The axially deformed relativistic mean field theory is applied to study the isotope shift of charge distributions of odd-Z Pr isotope chain. The nuclear structure associated with the shell and the isotope effect is investigated. The mechanism of the kink in the isotope shift at the neutron magic number N = 82 is revealed to be dependent on the neutron energy level structure at the Fermi energy, demonstrating that the spin-orbit coupling interaction and p-n attraction are well described by the relativistic mean field theory.
The axially deformed relativistic mean field theory is applied to study the isotope shift of charge distributions of odd-Z Pr isotope chain. The nuclear structure associated with the shell and the isotope effect is investigated. The mechanism of the kink in the isotope shift at the neutron magic number N = 82 is revealed to be dependent on the neutron energy level structure at the Fermi energy, demonstrating that the spin-orbit coupling interaction and p-n attraction are well described by the relativistic mean field theory.
基金
Supported by the Major State Basic Research Development Programme of China under Grant No G2000077400, the National Natural Science Foundation of China under Grant Nos 10505016, 10575119, 10235020, 10235030, 10275094 and 10075080, the Knowledge Innovation Project of the Chinese Academy of Sciences under Grant No KJCX2-SW-NI7, the National Key Programme for Basic Research of the Ministry of Science and Technology under Grant Nos 2001CCB01200 and 2002CCB00200, and the Asia-Europe Link in Nuclear Physics and Astrophysics CN/ASIA-LINK/008 (094-791).
