High spin states of the odd-A STSr were populated by the fusion-evaporation reaction ^82Se(^9Be,4n) u. br at a beam energy of 46 MeV. Excited levels of SrSr have been extended up to an excitation energy of 7.4 MeV a...High spin states of the odd-A STSr were populated by the fusion-evaporation reaction ^82Se(^9Be,4n) u. br at a beam energy of 46 MeV. Excited levels of SrSr have been extended up to an excitation energy of 7.4 MeV at spin 31/2h. The coupling of a g9/2 neutron hole to the yrast states of the SSSr core can account for the low-lying states in STSr. The structure of the higher spin states is discussed by analogy with those of the neighboring odd-A N=49 isotones and possible configurations are proposed.展开更多
基金Supported by National Natural Science Foundation of China(10927507,11075214,10675171,11175259 and 11075064)
文摘High spin states of the odd-A STSr were populated by the fusion-evaporation reaction ^82Se(^9Be,4n) u. br at a beam energy of 46 MeV. Excited levels of SrSr have been extended up to an excitation energy of 7.4 MeV at spin 31/2h. The coupling of a g9/2 neutron hole to the yrast states of the SSSr core can account for the low-lying states in STSr. The structure of the higher spin states is discussed by analogy with those of the neighboring odd-A N=49 isotones and possible configurations are proposed.