Systematical study of high-spin rotational bands in neutron-deficient Kr isotopes by the extended projected shell model

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• 作者：Xin-Yi Wu^a ; ^b ; S.K. Ghorui^a ; ^b ; ^c ; Long-Jun Wang^a ; ^b ; K. Kaneko^d ; Yang Sun^a ; ^b ; ^c ; ^{sunyang@sjtu.edu.cn}
• 关键词：Projected shell model ; High spin structure ; Multi-quasiparticle configurations ; Pfaffian formulas
• 刊名：Nuclear Physics A
• 出版年：2017
• 出版时间：January 2017
• 年：2017
• 卷：957
• 期：Complete
• 页码：208-229
• 全文大小：1148 K
• 卷排序：957

文摘

We analyze the high-spin structure of the even–even 72–80Kr isotopes using the Projected Shell Model (PSM). With the help of the Pfaffian formulas, we have vigorously extended the quasi-particle (qp) basis of the PSM code and applied in this mass region for the first time. We consider a sufficiently large multi-qp configuration space in order to describe high-spin rotational behavior. The results show that the calculation can reproduce most of the known rotational bands with positive- or negative-parity. Moreover, some side bands appearing in the near-yrast region are predicted. The main structure for each band is discussed in terms of multi-qp configurations. The variations in moment of inertia with spin are explained in terms of successive band crossings among the 2-qp, 4-qp, 6-qp, and 8-qp states. The B(E2)B(E2) transition probabilities in these bands are also calculated. To further understand the high-spin behavior of these neutron-deficient nuclei and to confirm predictions of the present work, good high-spin data, especially for B(E2)B(E2) transitions, are called for.