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β decay of Ni 75 and the systematics of the low-lying level structure of neutron-rich odd-A Cu isotopes

dc.date.accessioned2021-03-15T21:02:26Z
dc.date.available2021-03-15T21:02:26Z
dc.date.created2020-12-18T12:20:25Z
dc.date.issued2020
dc.identifier.citationBello Garrote, Frank Leonel Sahin, Eda Tsunoda, Y. Otsuka, T. Görgen, Andreas Niikura, M. Nishimura, S. De Angelis, G. Benzoni, G. Morales, A.I. Modamio, Victor Xu, Z. Baba, H. Browne, F. Bruce, A.M. Ceruti, S. Crespi, F.C.L. Daido, R. Delattre, M.-C. Doornenbal, P. Dombradi, Zs. Fang, Y. Franchoo, S. Gey, G. Gottardo, A. Hadyńska-Klèk, K. Isobe, T. John, P.R. Jung, H.S. Kojouharov, I. Kubo, T. Kurz, Nikolaus Kuti, I. Li, Z. Lorusso, G. Matea, I. Matsui, K. Mengoni, D. Miyazaki, T. Momiyama, S. Morfouace, P. Napoli, D.R. Naqvi, F. Nishibata, H. Odahara, A. Orlandi, R. Patel, Z. Rice, S. Sakurai, H. Schaffner, H. Sinclair, L. Söderström, P.-A. Sohler, D. Stefan, I. Sumikama, T. Suzuki, D. Taniuchi, R. Taprogge, J. Vajta, Zs. Valiente-Dobón, J.J. Watanabe, H. Werner, V. Wu, J. Yagi, A. Yalcinkaya, M. Yokoyama, R. Yoshinaga, K. . β decay of Ni 75 and the systematics of the low-lying level structure of neutron-rich odd-A Cu isotopes. Physical Review C. 2020, 102(3)
dc.identifier.urihttp://hdl.handle.net/10852/84109
dc.description.abstractBackground: Detailed spectroscopy of neutron-rich odd-A Cu isotopes is of great importance for studying the shell evolution in the region of 78Ni. While there is experimental information on excited states in 69−73,77,79Cu isotopes, the information concerning 75Cu is very limited. Purpose: Experimentally observed single-particle, core-coupling, and proton-hole intruder states in 75Cu, will complete the systematics of these states in the chain of isotopes. Method: Excited states in 75Cu were populated in the β decay of 75Ni isotopes. The Ni nuclei were produced by the in-flight fission of 238U projectiles, and were separated, identified, and implanted in a highly segmented Si detector array for the detection of the β-decay electrons. The β-delayed γ rays were detected in a HPGe cluster array. Monte Carlo shell model calculations were performed using the A3DA interaction built on the pfg9/2d5/2 model space for both neutrons and protons. Results: A level scheme of 75Cu was built up to ≈4 MeV by performing a γ−γ coincidence analysis. The excited states below 2 MeV were interpreted based on the systematics of neutron-rich odd-A Cu isotopes and the results of the shell model calculations. Conclusions: The evolution of the single-particle, core-coupling, and proton-hole intruder states in the chain of neutron-rich odd-A Cu isotopes is discussed in the present work, in connection with the newly observed level structure of 75Cu.
dc.languageEN
dc.publisherAmerican Physical Society
dc.titleβ decay of Ni 75 and the systematics of the low-lying level structure of neutron-rich odd-A Cu isotopes
dc.typeJournal article
dc.creator.authorBello Garrote, Frank Leonel
dc.creator.authorSahin, Eda
dc.creator.authorTsunoda, Y.
dc.creator.authorOtsuka, T.
dc.creator.authorGörgen, Andreas
dc.creator.authorNiikura, M.
dc.creator.authorNishimura, S.
dc.creator.authorDe Angelis, G.
dc.creator.authorBenzoni, G.
dc.creator.authorMorales, A.I.
dc.creator.authorModamio, Victor
dc.creator.authorXu, Z.
dc.creator.authorBaba, H.
dc.creator.authorBrowne, F.
dc.creator.authorBruce, A.M.
dc.creator.authorCeruti, S.
dc.creator.authorCrespi, F.C.L.
dc.creator.authorDaido, R.
dc.creator.authorDelattre, M.-C.
dc.creator.authorDoornenbal, P.
dc.creator.authorDombradi, Zs.
dc.creator.authorFang, Y.
dc.creator.authorFranchoo, S.
dc.creator.authorGey, G.
dc.creator.authorGottardo, A.
dc.creator.authorHadyńska-Klèk, K.
dc.creator.authorIsobe, T.
dc.creator.authorJohn, P.R.
dc.creator.authorJung, H.S.
dc.creator.authorKojouharov, I.
dc.creator.authorKubo, T.
dc.creator.authorKurz, Nikolaus
dc.creator.authorKuti, I.
dc.creator.authorLi, Z.
dc.creator.authorLorusso, G.
dc.creator.authorMatea, I.
dc.creator.authorMatsui, K.
dc.creator.authorMengoni, D.
dc.creator.authorMiyazaki, T.
dc.creator.authorMomiyama, S.
dc.creator.authorMorfouace, P.
dc.creator.authorNapoli, D.R.
dc.creator.authorNaqvi, F.
dc.creator.authorNishibata, H.
dc.creator.authorOdahara, A.
dc.creator.authorOrlandi, R.
dc.creator.authorPatel, Z.
dc.creator.authorRice, S.
dc.creator.authorSakurai, H.
dc.creator.authorSchaffner, H.
dc.creator.authorSinclair, L.
dc.creator.authorSöderström, P.-A.
dc.creator.authorSohler, D.
dc.creator.authorStefan, I.
dc.creator.authorSumikama, T.
dc.creator.authorSuzuki, D.
dc.creator.authorTaniuchi, R.
dc.creator.authorTaprogge, J.
dc.creator.authorVajta, Zs.
dc.creator.authorValiente-Dobón, J.J.
dc.creator.authorWatanabe, H.
dc.creator.authorWerner, V.
dc.creator.authorWu, J.
dc.creator.authorYagi, A.
dc.creator.authorYalcinkaya, M.
dc.creator.authorYokoyama, R.
dc.creator.authorYoshinaga, K.
cristin.unitcode185,15,4,0
cristin.unitnameFysisk institutt
cristin.ispublishedtrue
cristin.fulltextoriginal
cristin.qualitycode1
dc.identifier.cristin1861537
dc.identifier.bibliographiccitationinfo:ofi/fmt:kev:mtx:ctx&ctx_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:journal&rft.jtitle=Physical Review C&rft.volume=102&rft.spage=&rft.date=2020
dc.identifier.jtitlePhysical Review C
dc.identifier.volume102
dc.identifier.issue3
dc.identifier.pagecount0
dc.identifier.doihttps://doi.org/10.1103/PhysRevC.102.034314
dc.identifier.urnURN:NBN:no-86806
dc.type.documentTidsskriftartikkel
dc.type.peerreviewedPeer reviewed
dc.source.issn2469-9985
dc.identifier.fulltextFulltext https://www.duo.uio.no/bitstream/handle/10852/84109/2/PhysRevC.102.034314.pdf
dc.type.versionPublishedVersion
cristin.articleid034314
dc.relation.projectNFR/213442
dc.relation.projectNFR/240104


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