摘要
By taking the particle triaxial-rotor model with variable moment of inertia, we investigate the energy spectra, the deformation and the single particle configuration of the negative-parity states in nuclei^(191,193,194,197) Au systemically. The calculated energy spectra agree well with experimental data. The obtained results indicate that the negative-parity states in^(191,193,195,197)Au originate from the proton-hole h11/2 configuration coupled to a triaxial oblate Hg core. Meanwhile the main single particle configuration of the bands 1, 2 and 3 are identified to be [5h11/2 1/2) (α=-1/2), [5h11/2 1/2) (α = 1/2) and 15h9/2 7/2), respectively.
By taking the particle triaxial-rotor model with variable moment of inertia, we investigate the energy spectra, the deformation and the single particle configuration of the negative-parity states in nuclei^(191,193,194,197) Au systemically. The calculated energy spectra agree well with experimental data. The obtained results indicate that the negative-parity states in^(191,193,195,197)Au originate from the proton-hole h11/2 configuration coupled to a triaxial oblate Hg core. Meanwhile the main single particle configuration of the bands 1, 2 and 3 are identified to be [5h11/2 1/2) (α=-1/2), [5h11/2 1/2) (α = 1/2) and 15h9/2 7/2), respectively.
基金
Supported by the National Natural Science foundation with contract No 10425521, the Major State Basic Research and Development Programme of China under Grant No G2000077400, the Natural Science foundation of Guangdong Province under Grant No 04011642, and the Natural Science Research Foundation of the Education Department of Guangdong Province under Grant No Z02069.
作者简介
Email:chengj126@126.comEmail: To whom corresponding should be addressed. Email: liuyx@phy.pku.edu.cn
