First observation of
rays emitted from excited states south-east of
Sn; The
g
multiplet of
In
Snの南東に位置する励起状態からの初めての
線観測;
In
g
の多重項
Jungclaus, A.*; Gargano, A.*; Grawe, H.*; Taprogge, J.*; 西村 俊二*; Doornenbal, P.*; Lorusso, G.*; Shimizu, Y.*; Simpson, G. S.*; S
derstr
m, P.-A.*; 炭竃 聡之*; Xu, Z. Y.*; 馬場 秀忠*; Browne, F.*; Fukuda, N.*; Gernh
user, R.*; Gey, G.*; 稲辺 尚人*; Isobe, T.*; Jung, H. S.*; 亀田 大輔*; Kim, G. D.*; Kim, Y.-K.*; Kojouharov, I.*; 久保 敏幸*; Kurz, N.*; Kwon, Y. K.*; Li, Z.*; 櫻井 博儀*; Schaffner, H.*; Steiger, K.*; Suzuki, H.*; Takeda, H.*; Vajita, Zs.*; Watanabe, H.*; Wu, J.*; Yagi, A.*; 吉永 健太*; B
nig, S.*; Coraggio, L.*; Daugas, J.-M.*; Drouet, F.*; Gadea, A.*; Ilieva, S.*; Itaco, N.*; Kr
ll, T.*; Montaner-Piz
, A.*; Moschner, K.*; M
cher, D.*; 西畑 洸希*; 小田原 厚子*; Orlandi, R.
; Wendt, A.*
Jungclaus, A.*; Gargano, A.*; Grawe, H.*; Taprogge, J.*; Nishimura, Shunji*; Doornenbal, P.*; Lorusso, G.*; Shimizu, Y.*; Simpson, G. S.*; S
derstr
m, P.-A.*; Sumikama, Toshiyuki*; Xu, Z. Y.*; Baba, Hidetada*; Browne, F.*; Fukuda, N.*; Gernh
user, R.*; Gey, G.*; Inabe, Naoto*; Isobe, T.*; Jung, H. S.*; Kameda, Daisuke*; Kim, G. D.*; Kim, Y.-K.*; Kojouharov, I.*; Kubo, Toshiyuki*; Kurz, N.*; Kwon, Y. K.*; Li, Z.*; Sakurai, Hiroyoshi*; Schaffner, H.*; Steiger, K.*; Suzuki, H.*; Takeda, H.*; Vajita, Zs.*; Watanabe, H.*; Wu, J.*; Yagi, A.*; Yoshinaga, Kenta*; B
nig, S.*; Coraggio, L.*; Daugas, J.-M.*; Drouet, F.*; Gadea, A.*; Ilieva, S.*; Itaco, N.*; Kr
ll, T.*; Montaner-Piz
, A.*; Moschner, K.*; M
cher, D.*; Nishibata, Hiroki*; Odahara, Atsuko*; Orlandi, R.; Wendt, A.*
For the first time, the decay of excited states in a nucleus situated "south-east" of
Sn have been observed, in a region where experimental information is limited to ground-state properties. Six
rays from
Cd, produced in the fragmentation of a
U beam at RIBF at RIKEN. The
rays were studied using the EURICA array of Ge detectors. The new experimental information is compared to results from realistic shell-model calculations, which are the first in this region far from stability. Comparison with calculations suggests that at least four out of six new transitions can be attributed to the particle-hole configuration of one neutron in the
and one proton hole in the
orbits, respectively. This work constitutes an important first step towards the exploration of nuclear structure in this unknown region of the nuclear chart.