Rotational band properties of W
Wang, H. X.*; Zhang, Y. H.*; Zhou, X. H.*; Liu, M. L.*; Ding, B.*; Li, G. S.*; Hua, W.*; Zhou, H. B.*; Guo, S.*; Qiang, Y. H.*; 大島 真澄*; 小泉 光生 ; 藤 暢輔 ; 木村 敦 ; 原田 秀郎 ; 古高 和禎 ; 北谷 文人 ; 中村 詔司 ; 初川 雄一; 太田 雅之; 原 かおる; 金 政浩*; Meng, J.*
Wang, H. X.*; Zhang, Y. H.*; Zhou, X. H.*; Liu, M. L.*; Ding, B.*; Li, G. S.*; Hua, W.*; Zhou, H. B.*; Guo, S.*; Qiang, Y. H.*; Oshima, Masumi*; Koizumi, Mitsuo; Toh, Yosuke; Kimura, Atsushi; Harada, Hideo; Furutaka, Kazuyoshi; Kitatani, Fumito; Nakamura, Shoji; Hatsukawa, Yuichi; Ota, Masayuki; Hara, Kaoru; Kin, Tadahiro*; Meng, J.*
High-spin states in W have been studied using the Nd(Si,5)W reaction at beam energies of 135 and 140 MeV. The previously known bands associated with the 7/2, 5/2, and 1/2 configurations are extended significantly, and the unfavored signature branch of the 1/2 band is established for the first time. The band properties, such as level spacings, band-crossing frequencies, alignment gains, and signature splittings, are discussed with an emphasis on the low-spin signature inversion observed in the 5/2 band. By comparing the experimental (1)/(2) ratios with the theoretical values, we conclude that the configuration of the 5/2 band is quite pure at low spins without appreciable admixture of the 5/2 orbit, in conflict with the particle rotor model calculated results.