Microscopic description of nuclear structure around Zr80

Wen Hua Zou, Yuan Tian, Jian Zhong Gu, Shui Fa Shen, Jiang Ming Yao, Bang Bao Peng, Zhong Yu Ma

研究成果: Article査読

4 被引用数 (Scopus)


A new approach for the calculation of angular momentum projected potential energy surfaces (AMPPESs) is proposed which combines the projected shell model with a quadrupole constrained relativistic Hartree-Bogoliubov (RHB) theory in which the NL3 effective interaction is chosen for the relativistic mean-field effective Lagrangian and a separable Gogny D1S interaction for the pairing force (QCRHB-NL3+separable Gogny D1S force theory). We apply this approach to compute the AMPPESs of Zr80,82,84 nuclei up to high spins and investigate the spin-induced shape transitions and decay out of the superdeformed (SD) bands in these nuclei. We find that the shape transitions occur in Zr80 and Zr84, which are driven by the rotational alignments of the nucleons in the 1g9/2 orbitals, and a strong shape mixing happens in Zr82. Moreover, it is shown that the barrier separating the SD states and normal deformed (or spherical) states becomes lower and narrower for Zr82 and Zr84 at high spins, indicating that the decay out of the SD bands could occur at high spins. For Zr80, however, there is no decay out of the SD band because the barrier is so high and thick. Meanwhile, the QCRHB-NL3+separable Gogny D1S force theory is employed to calculate the ground-state potential energy surfaces and the single-particle levels of these nuclei, which in turn are used to determine and analyze the equilibrium shapes and discuss the shape coexistence of these nuclei. In addition, this theory is compared with other state-of-the-art mean-field theories to justify its use to study the ground-state potential energy surfaces of Zr80,82,84.

ジャーナルPhysical Review C - Nuclear Physics
出版ステータスPublished - 2010 8月 10

ASJC Scopus subject areas

  • 核物理学および高エネルギー物理学


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