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사범대학
과학교육과
Journal papers
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N=32 shell closure below calcium: Low-lying structure of Ar 50
Title
N=32 shell closure below calcium: Low-lying structure of Ar 50
Authors
Cortés M.L.
;
Rodriguez W.
;
Doornenbal P.
;
Obertelli A.
;
Holt J.D.
;
Menéndez J.
;
Ogata K.
;
Schwenk A.
;
Shimizu N.
;
Simonis J.
;
Utsuno Y.
;
Yoshida K.
;
Achouri L.
;
Baba H.
;
Browne F.
;
Calvet D.
;
Château F.
;
Chen S.
;
Chiga N.
;
Corsi A.
;
Delbart A.
;
Gheller J.-M.
;
Giganon A.
;
Gillibert A.
;
Hilaire C.
;
Isobe T.
;
Kobayashi T.
;
Kubota Y.
;
Lapoux V.
;
Liu H.N.
;
Motobayashi T.
;
Murray I.
;
Otsu H.
;
Panin V.
;
Paul N.
;
Sakurai H.
;
Sasano M.
;
Steppenbeck D.
;
Stuhl L.
;
Sun Y.L.
;
Togano Y.
;
Uesaka T.
;
Wimmer K.
;
Yoneda K.
;
Aktas O.
;
Aumann T.
;
Chung L.X.
;
Flavigny F.
;
Franchoo S.
;
Gašparić I.
;
Gerst R.-B.
;
Gibelin J.
;
Hahn K.I.
;
Kim D.
;
Koiwai T.
;
Kondo Y.
;
Koseoglou P.
;
Lee J.
;
Lehr C.
;
Linh B.D.
;
Lokotko T.
;
Maccormick M.
;
Moschner K.
;
Nakamura T.
;
Park S.Y.
;
Rossi D.
;
Sahin E.
;
Söderström P.-A.
;
Sohler D.
;
Takeuchi S.
;
Toernqvist H.
;
Vaquero V.
;
Wagner V.
;
Wang S.
;
Werner V.
;
Xu X.
;
Yamada H.
;
Yan D.
;
Yang Z.
;
Yasuda M.
;
Zanetti L.
Ewha Authors
한인식
SCOPUS Author ID
한인식
Issue Date
2020
Journal Title
Physical Review C
ISSN
2469-9985
Citation
Physical Review C vol. 102, no. 6
Publisher
American Physical Society
Indexed
SCIE; SCOPUS
Document Type
Article
Abstract
Low-lying excited states in the N=32 isotope Ar50 were investigated by in-beam γ-ray spectroscopy following proton- and neutron-knockout, multinucleon removal, and proton inelastic scattering at the RIKEN Radioactive Isotope Beam Factory. The energies of the two previously reported transitions have been confirmed, and five additional states are presented for the first time, including a candidate for a 3- state. The level scheme built using γγ coincidences was compared to shell-model calculations in the sd-pf model space and to ab initio predictions based on chiral two- and three-nucleon interactions. Theoretical proton- and neutron-knockout cross sections suggest that two of the new transitions correspond to 2+ states, while the previously proposed 41+ state could also correspond to a 2+ state. © 2020 authors. Published by the American Physical Society.
DOI
10.1103/PhysRevC.102.064320
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