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Observation of a γ-decaying millisecond isomeric state in 128Cd80

Authors :: A. Jungclaus
H. Grawe
S. Nishimura
P. Doornenbal
G. Lorusso
G.S. Simpson
P.-A. Söderström
T. Sumikama
J. Taprogge
Z.Y. Xu
H. Baba
F. Browne
N. Fukuda
R. Gernhäuser
G. Gey
N. Inabe
T. Isobe
H.S. Jung
D. Kameda
G.D. Kim
Y.-K. Kim
I. Kojouharov
T. Kubo
N. Kurz
Y.K. Kwon
Z. Li
H. Sakurai
H. Schaffner
Y. Shimizu
K. Steiger
H. Suzuki
H. Takeda
Zs. Vajta
H. Watanabe
J. Wu
A. Yagi
K. Yoshinaga
G. Benzoni
S. Bönig
K.Y. Chae
L. Coraggio
J.-M. Daugas
F. Drouet
A. Gadea
A. Gargano
S. Ilieva
N. Itaco
F.G. Kondev
T. Kröll
G.J. Lane
A. Montaner-Pizá
K. Moschner
D. Mücher
F. Naqvi
M. Niikura
H. Nishibata
A. Odahara
R. Orlandi
Z. Patel
Zs. Podolyák
A. Wendt
Source :: Physics Letters B, Vol 772, Iss C, Pp 483-488 (2017)
Publication Year :: 2017
Publisher :: Elsevier, 2017.
Abstract: A new high-spin isomer in the neutron-rich nucleus 128Cd was populated in the projectile fission of a 238U beam at the Radioactive Isotope Beam Factory at RIKEN. A half-life of T1/2=6.3(8) ms was measured for the new state which was tentatively assigned a spin/parity of (15−). The experimental results are compared to shell model calculations performed using state-of-the-art realistic effective interactions and to the neighbouring nucleus 129Cd. In the present experiment no evidence was found for the decay of a 18+ E6 spin-trap isomer, based on the complete alignment of the two-neutron and two-proton holes in the 0h11/2 and the 0g9/2 orbit, respectively, which is predicted to exist by the shell model.