Signature splitting inversion and backbending in 80Rb

Chuangye He; Shuifa Shen; Shuxian Wen; Lihua Zhu; Xiaoguang Wu; Guangsheng Li; Yue Zhao; Yupeng Yan; Zhijun Bai; Yican Wu; Yazhou Li; Gui Li; Shiwei Yan; M. Oshima; Y. Toh; A. Osa; M. Koizumi; Y. Hatsukawa; M. Matsuda; T. Hagakawa

doi:10.1103/PhysRevC.87.034320

Signature splitting inversion and backbending in 80Rb

Chuangye He
, Shuifa Shen
, Shuxian Wen
, Lihua Zhu
, Xiaoguang Wu
, Guangsheng Li
, Yue Zhao
, Yupeng Yan
, Zhijun Bai
, Yican Wu
, Yazhou Li
, Gui Li
, Shiwei Yan
, M. Oshima
, Y. Toh
, A. Osa
, M. Koizumi
, Y. Hatsukawa
, M. Matsuda
, T. Hagakawa

能源与动力工程学院

China National Nuclear Corporation
Chinese Academy of Sciences
Suranaree University of Technology
Peking University
Beihang University
East China University of Technology
Ministry of Higher Education, Science, Research and Innovation
Beijing Normal University
Japan Atomic Energy Agency

科研成果: 期刊稿件 › 文章 › 同行评审

4 引用（Scopus）

摘要

High-spin states of 80Rb are studied via the fusion-evaporation reactions 65Cu+19F, 66Zn+18O, and 68Zn+16O with the beam energies of 75 MeV, 76 MeV, and 80 MeV, respectively. Twenty-three states with twenty-eight γ transitions are added to the previously proposed level scheme, where the second negative-parity band is significantly pushed up to spins of 22^- and 15^- and two sidebands are built on the known first negative-parity band. Two successive band crossings with frequencies 0.51 MeV and 0.61 MeV in the α = 0 branch as well as another one in the α = 1 branch of the second negative-parity band are observed. Signature inversions occur in the positive-parity and first negative-parity bands at the spins of 11 and 16, respectively. The signature splitting is seen obviously in the second negative-parity band, but the signature inversion is not observed. It is also found that the structure of the two negative-parity bands is similar to that of its isotone 82Y. Signature inversion in the positive-parity yrast band with configuration πg_9/2âŠ - νg_9/2 in this nucleus is discussed using the projected shell model.

源语言	英语
文章编号	034320
期刊	Physical Review C - Nuclear Physics
卷	87
期	3
DOI	https://doi.org/10.1103/PhysRevC.87.034320
出版状态	已出版 - 22 3月 2013

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@article{0f4a4afb7ad64d2db3f04ccf6dcb05af,

title = "Signature splitting inversion and backbending in 80Rb",

abstract = "High-spin states of 80Rb are studied via the fusion-evaporation reactions 65Cu+19F, 66Zn+18O, and 68Zn+16O with the beam energies of 75 MeV, 76 MeV, and 80 MeV, respectively. Twenty-three states with twenty-eight γ transitions are added to the previously proposed level scheme, where the second negative-parity band is significantly pushed up to spins of 22- and 15- and two sidebands are built on the known first negative-parity band. Two successive band crossings with frequencies 0.51 MeV and 0.61 MeV in the α = 0 branch as well as another one in the α = 1 branch of the second negative-parity band are observed. Signature inversions occur in the positive-parity and first negative-parity bands at the spins of 11 and 16, respectively. The signature splitting is seen obviously in the second negative-parity band, but the signature inversion is not observed. It is also found that the structure of the two negative-parity bands is similar to that of its isotone 82Y. Signature inversion in the positive-parity yrast band with configuration πg9/2{\^a}{\v S} - νg9/2 in this nucleus is discussed using the projected shell model.",

author = "Chuangye He and Shuifa Shen and Shuxian Wen and Lihua Zhu and Xiaoguang Wu and Guangsheng Li and Yue Zhao and Yupeng Yan and Zhijun Bai and Yican Wu and Yazhou Li and Gui Li and Shiwei Yan and M. Oshima and Y. Toh and A. Osa and M. Koizumi and Y. Hatsukawa and M. Matsuda and T. Hagakawa",

year = "2013",

month = mar,

day = "22",

doi = "10.1103/PhysRevC.87.034320",

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T1 - Signature splitting inversion and backbending in 80Rb

AU - He, Chuangye

AU - Shen, Shuifa

AU - Wen, Shuxian

AU - Zhu, Lihua

AU - Wu, Xiaoguang

AU - Li, Guangsheng

AU - Zhao, Yue

AU - Yan, Yupeng

AU - Bai, Zhijun

AU - Wu, Yican

AU - Li, Yazhou

AU - Li, Gui

AU - Yan, Shiwei

AU - Oshima, M.

AU - Toh, Y.

AU - Osa, A.

AU - Koizumi, M.

AU - Hatsukawa, Y.

AU - Matsuda, M.

AU - Hagakawa, T.

PY - 2013/3/22

Y1 - 2013/3/22

N2 - High-spin states of 80Rb are studied via the fusion-evaporation reactions 65Cu+19F, 66Zn+18O, and 68Zn+16O with the beam energies of 75 MeV, 76 MeV, and 80 MeV, respectively. Twenty-three states with twenty-eight γ transitions are added to the previously proposed level scheme, where the second negative-parity band is significantly pushed up to spins of 22- and 15- and two sidebands are built on the known first negative-parity band. Two successive band crossings with frequencies 0.51 MeV and 0.61 MeV in the α = 0 branch as well as another one in the α = 1 branch of the second negative-parity band are observed. Signature inversions occur in the positive-parity and first negative-parity bands at the spins of 11 and 16, respectively. The signature splitting is seen obviously in the second negative-parity band, but the signature inversion is not observed. It is also found that the structure of the two negative-parity bands is similar to that of its isotone 82Y. Signature inversion in the positive-parity yrast band with configuration πg9/2âŠ - νg9/2 in this nucleus is discussed using the projected shell model.

AB - High-spin states of 80Rb are studied via the fusion-evaporation reactions 65Cu+19F, 66Zn+18O, and 68Zn+16O with the beam energies of 75 MeV, 76 MeV, and 80 MeV, respectively. Twenty-three states with twenty-eight γ transitions are added to the previously proposed level scheme, where the second negative-parity band is significantly pushed up to spins of 22- and 15- and two sidebands are built on the known first negative-parity band. Two successive band crossings with frequencies 0.51 MeV and 0.61 MeV in the α = 0 branch as well as another one in the α = 1 branch of the second negative-parity band are observed. Signature inversions occur in the positive-parity and first negative-parity bands at the spins of 11 and 16, respectively. The signature splitting is seen obviously in the second negative-parity band, but the signature inversion is not observed. It is also found that the structure of the two negative-parity bands is similar to that of its isotone 82Y. Signature inversion in the positive-parity yrast band with configuration πg9/2âŠ - νg9/2 in this nucleus is discussed using the projected shell model.

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