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1p3/2 proton-hole state in 132Sn and the shell structure along N = 82.

Authors :: Taprogge J
Jungclaus A
Grawe H
Nishimura S
Doornenbal P
Lorusso G
Simpson GS
Söderström PA
Sumikama T
Xu ZY
Baba H
Browne F
Fukuda N
Gernhäuser R
Gey G
Inabe N
Isobe T
Jung HS
Kameda D
Kim GD
Kim YK
Kojouharov I
Kubo T
Kurz N
Kwon YK
Li Z
Sakurai H
Schaffner H
Steiger K
Suzuki H
Takeda H
Vajta Z
Watanabe H
Wu J
Yagi A
Yoshinaga K
Benzoni G
Bönig S
Chae KY
Coraggio L
Covello A
Daugas JM
Drouet F
Gadea A
Gargano A
Ilieva S
Kondev FG
Kröll T
Lane GJ
Montaner-Pizá A
Moschner K
Mücher D
Naqvi F
Niikura M
Nishibata H
Odahara A
Orlandi R
Patel Z
Podolyák Z
Wendt A
Source :: Physical review letters [Phys Rev Lett] 2014 Apr 04; Vol. 112 (13), pp. 132501. Date of Electronic Publication: 2014 Apr 01.
Publication Year :: 2014
Abstract: A low-lying state in 131In82, the one-proton hole nucleus with respect to double magic 132Sn, was observed by its γ decay to the Iπ=1/2- β-emitting isomer. We identify the new state at an excitation energy of Ex=1353 keV, which was populated both in the β decay of 131Cd83 and after β-delayed neutron emission from 132Cd84, as the previously unknown πp3/2 single-hole state with respect to the 132Sn core. Exploiting this crucial new experimental information, shell-model calculations were performed to study the structure of experimentally inaccessible N=82 isotones below 132Sn. The results evidence a surprising absence of proton subshell closures along the chain of N=82 isotones. The consequences of this finding for the evolution of the N=82 shell gap along the r-process path are discussed.