摘要
High-spin states in ^129Cs are populated via the ^122Sn (^11B, 4n) reaction at beam energies of 55 and 60MeV. Two additional bands are placed in the level scheme and the previously known bands are extended to higher spins. The results are compared to the cranked shell model calculations and to the systematics of the adjacent Cs isotpoes. One of the new bands is interpreted as the 7-vibrational band built on the πh11/2 orbital. The possible configuration for another new band is discussed. Upbend caused by (Vh11/2)^2 alignment is observed both in the favored and unfavored sequences of the πh11/2 configuration. The band based on the πgτ/2 configuration at low spins forks around spin 17//2, and the two different S-bands are attributed to (Vh11/2)^2 and (πh11/2)^2 rotational alignments, respectively.
High-spin states in ^129Cs are populated via the ^122Sn (^11B, 4n) reaction at beam energies of 55 and 60MeV. Two additional bands are placed in the level scheme and the previously known bands are extended to higher spins. The results are compared to the cranked shell model calculations and to the systematics of the adjacent Cs isotpoes. One of the new bands is interpreted as the 7-vibrational band built on the πh11/2 orbital. The possible configuration for another new band is discussed. Upbend caused by (Vh11/2)^2 alignment is observed both in the favored and unfavored sequences of the πh11/2 configuration. The band based on the πgτ/2 configuration at low spins forks around spin 17//2, and the two different S-bands are attributed to (Vh11/2)^2 and (πh11/2)^2 rotational alignments, respectively.
基金
Supported by the National Natural Science Foundation of China under Grant No 10675053, the National Basic Research Program of China under Grant No 2007CB815005, and the Specialized Research Fund for the Doctoral Programme of Higher Education of China under Grant No 20060183048.
