Interplay between nuclear shell evolution and shape deformation revealed by the magnetic moment of 75Cu

Y. Ichikawa; H. Nishibata; Y. Tsunoda; A. Takamine; K. Imamura; T. Fujita; T. Sato; S. Momiyama; Y. Shimizu; D. S. Ahn; K. Asahi; H. Baba; D. L. Balabanski; F. Boulay; J. M. Daugas; T. Egami; N. Fukuda; C. Funayama; T. Furukawa; G. Georgiev; A. Gladkov; N. Inabe; Y. Ishibashi; T. Kawaguchi; T. Kawamura; Y. Kobayashi; S. Kojima; A. Kusoglu; I. Mukul; M. Niikura; T. Nishizaka; A. Odahara; Y. Ohtomo; T. Otsuka; D. Ralet; G. S. Simpson; T. Sumikama; H. Suzuki; H. Takeda; L. C. Tao; Y. Togano; D. Tominaga; H. Ueno; H. Yamazaki; X. F. Yang

doi:10.1038/s41567-018-0410-7

Interplay between nuclear shell evolution and shape deformation revealed by the magnetic moment of ⁷⁵Cu

Y. Ichikawa, H. Nishibata, Y. Tsunoda, A. Takamine, K. Imamura, T. Fujita, T. Sato, S. Momiyama, Y. Shimizu, D. S. Ahn, K. Asahi, H. Baba, D. L. Balabanski, F. Boulay, J. M. Daugas, T. Egami, N. Fukuda, C. Funayama, T. Furukawa, G. GeorgievA. Gladkov, N. Inabe, Y. Ishibashi, T. Kawaguchi, T. Kawamura, Y. Kobayashi, S. Kojima, A. Kusoglu, I. Mukul, M. Niikura, T. Nishizaka, A. Odahara, Y. Ohtomo, T. Otsuka, D. Ralet, G. S. Simpson, T. Sumikama, H. Suzuki, H. Takeda, L. C. Tao, Y. Togano, D. Tominaga, H. Ueno, H. Yamazaki, X. F. Yang

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

12 被引用数 (Scopus)

抄録

Exotic nuclei are characterized by having a number of neutrons (or protons) in excess relative to stable nuclei. Their shell structure, which represents single-particle motion in a nucleus^1,2, may vary due to nuclear force and excess neutrons^3–6, in a phenomenon called shell evolution⁷. This effect could be counterbalanced by collective modes causing deformations of the nuclear surface⁸. Here, we study the interplay between shell evolution and shape deformation by focusing on the magnetic moment of an isomeric state of the neutron-rich nucleus ⁷⁵Cu. We measure the magnetic moment using highly spin-controlled rare-isotope beams and achieve large spin alignment via a two-step reaction scheme⁹ that incorporates an angular-momentum-selecting nucleon removal. By combining our experiments with numerical simulations of many-fermion correlations, we find that the low-lying states in ⁷⁵Cu are, to a large extent, of single-particle nature on top of a correlated ⁷⁴Ni core. We elucidate the crucial role of shell evolution even in the presence of the collective mode, and within the same framework we consider whether and how the double magicity of the ⁷⁸Ni nucleus is restored, which is also of keen interest from the perspective of nucleosynthesis in explosive stellar processes.

本文言語	英語
ページ（範囲）	321-325
ページ数	5
ジャーナル	Nature Physics
巻	15
号	4
DOI	https://doi.org/10.1038/s41567-018-0410-7
出版ステータス	出版済み - 4月 1 2019
外部発表	はい

!!!All Science Journal Classification (ASJC) codes

物理学および天文学（全般）

文献へのアクセス

10.1038/s41567-018-0410-7

他のファイルとリンク

引用スタイル

Ichikawa, Y., Nishibata, H., Tsunoda, Y., Takamine, A., Imamura, K., Fujita, T., Sato, T., Momiyama, S., Shimizu, Y., Ahn, D. S., Asahi, K., Baba, H., Balabanski, D. L., Boulay, F., Daugas, J. M., Egami, T., Fukuda, N., Funayama, C., Furukawa, T., ... Yang, X. F. (2019). Interplay between nuclear shell evolution and shape deformation revealed by the magnetic moment of ⁷⁵Cu. Nature Physics, 15(4), 321-325. https://doi.org/10.1038/s41567-018-0410-7

Ichikawa, Y , Nishibata, H, Tsunoda, Y, Takamine, A, Imamura, K, Fujita, T, Sato, T, Momiyama, S, Shimizu, Y, Ahn, DS, Asahi, K, Baba, H, Balabanski, DL, Boulay, F, Daugas, JM, Egami, T, Fukuda, N, Funayama, C, Furukawa, T, Georgiev, G, Gladkov, A, Inabe, N, Ishibashi, Y, Kawaguchi, T, Kawamura, T, Kobayashi, Y, Kojima, S, Kusoglu, A, Mukul, I, Niikura, M, Nishizaka, T, Odahara, A, Ohtomo, Y, Otsuka, T, Ralet, D, Simpson, GS, Sumikama, T, Suzuki, H, Takeda, H, Tao, LC, Togano, Y, Tominaga, D, Ueno, H, Yamazaki, H & Yang, XF 2019, 'Interplay between nuclear shell evolution and shape deformation revealed by the magnetic moment of ⁷⁵Cu', Nature Physics, vol. 15, no. 4, pp. 321-325. https://doi.org/10.1038/s41567-018-0410-7

@article{175a74f09568424abaae16b3b19a8439,

title = "Interplay between nuclear shell evolution and shape deformation revealed by the magnetic moment of 75Cu",

abstract = "Exotic nuclei are characterized by having a number of neutrons (or protons) in excess relative to stable nuclei. Their shell structure, which represents single-particle motion in a nucleus1,2, may vary due to nuclear force and excess neutrons3–6, in a phenomenon called shell evolution7. This effect could be counterbalanced by collective modes causing deformations of the nuclear surface8. Here, we study the interplay between shell evolution and shape deformation by focusing on the magnetic moment of an isomeric state of the neutron-rich nucleus 75Cu. We measure the magnetic moment using highly spin-controlled rare-isotope beams and achieve large spin alignment via a two-step reaction scheme9 that incorporates an angular-momentum-selecting nucleon removal. By combining our experiments with numerical simulations of many-fermion correlations, we find that the low-lying states in 75Cu are, to a large extent, of single-particle nature on top of a correlated 74Ni core. We elucidate the crucial role of shell evolution even in the presence of the collective mode, and within the same framework we consider whether and how the double magicity of the 78Ni nucleus is restored, which is also of keen interest from the perspective of nucleosynthesis in explosive stellar processes.",

author = "Y. Ichikawa and H. Nishibata and Y. Tsunoda and A. Takamine and K. Imamura and T. Fujita and T. Sato and S. Momiyama and Y. Shimizu and Ahn, {D. S.} and K. Asahi and H. Baba and Balabanski, {D. L.} and F. Boulay and Daugas, {J. M.} and T. Egami and N. Fukuda and C. Funayama and T. Furukawa and G. Georgiev and A. Gladkov and N. Inabe and Y. Ishibashi and T. Kawaguchi and T. Kawamura and Y. Kobayashi and S. Kojima and A. Kusoglu and I. Mukul and M. Niikura and T. Nishizaka and A. Odahara and Y. Ohtomo and T. Otsuka and D. Ralet and Simpson, {G. S.} and T. Sumikama and H. Suzuki and H. Takeda and Tao, {L. C.} and Y. Togano and D. Tominaga and H. Ueno and H. Yamazaki and Yang, {X. F.}",

note = "Funding Information: The experiment was performed under programme no. NP1412-RIBF124R1 at RIBF, operated by RIKEN Nishina Center for Accelerator-Based Science and CNS, The University of Tokyo. The authors thank the RIKEN accelerator staff for their cooperation during the experiment. This work was supported in part by a JSPS KAKENHI grant (16K05390), and also in part by JSPS and CNRS under the Japan-France Research Cooperative Program. The MCSM calculations were performed on the K computer at RIKEN AICS (hp140210, hp150224, hp160211, hp170230). This work was also supported in part by the HPCI Strategic Program ({\textquoteleft}The Origin of Matter and the Universe{\textquoteright}) and {\textquoteleft}Priority Issue on Post-K computer{\textquoteright} (Elucidation of the Fundamental Laws and Evolution of the Universe). D.L.B., and A.K. acknowledge support by the Extreme Light Infrastructure Nuclear Physics (ELI-NP) Phase II, a project co-financed by the Romanian Government and the European Union through the European Regional Development Fund – the Competitiveness Operational Programme(1/07.07.2016, COP, ID 1334). D.R. was supported by the P2IO Excellence Center. Publisher Copyright: {\textcopyright} 2019, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2019",

month = apr,

day = "1",

doi = "10.1038/s41567-018-0410-7",

language = "English",

volume = "15",

pages = "321--325",

journal = "Nature Physics",

issn = "1745-2473",

publisher = "Nature Publishing Group",

number = "4",

}

TY - JOUR

T1 - Interplay between nuclear shell evolution and shape deformation revealed by the magnetic moment of 75Cu

AU - Ichikawa, Y.

AU - Nishibata, H.

AU - Tsunoda, Y.

AU - Takamine, A.

AU - Imamura, K.

AU - Fujita, T.

AU - Sato, T.

AU - Momiyama, S.

AU - Shimizu, Y.

AU - Ahn, D. S.

AU - Asahi, K.

AU - Baba, H.

AU - Balabanski, D. L.

AU - Boulay, F.

AU - Daugas, J. M.

AU - Egami, T.

AU - Fukuda, N.

AU - Funayama, C.

AU - Furukawa, T.

AU - Georgiev, G.

AU - Gladkov, A.

AU - Inabe, N.

AU - Ishibashi, Y.

AU - Kawaguchi, T.

AU - Kawamura, T.

AU - Kobayashi, Y.

AU - Kojima, S.

AU - Kusoglu, A.

AU - Mukul, I.

AU - Niikura, M.

AU - Nishizaka, T.

AU - Odahara, A.

AU - Ohtomo, Y.

AU - Otsuka, T.

AU - Ralet, D.

AU - Simpson, G. S.

AU - Sumikama, T.

AU - Suzuki, H.

AU - Takeda, H.

AU - Tao, L. C.

AU - Togano, Y.

AU - Tominaga, D.

AU - Ueno, H.

AU - Yamazaki, H.

AU - Yang, X. F.

N1 - Funding Information: The experiment was performed under programme no. NP1412-RIBF124R1 at RIBF, operated by RIKEN Nishina Center for Accelerator-Based Science and CNS, The University of Tokyo. The authors thank the RIKEN accelerator staff for their cooperation during the experiment. This work was supported in part by a JSPS KAKENHI grant (16K05390), and also in part by JSPS and CNRS under the Japan-France Research Cooperative Program. The MCSM calculations were performed on the K computer at RIKEN AICS (hp140210, hp150224, hp160211, hp170230). This work was also supported in part by the HPCI Strategic Program (‘The Origin of Matter and the Universe’) and ‘Priority Issue on Post-K computer’ (Elucidation of the Fundamental Laws and Evolution of the Universe). D.L.B., and A.K. acknowledge support by the Extreme Light Infrastructure Nuclear Physics (ELI-NP) Phase II, a project co-financed by the Romanian Government and the European Union through the European Regional Development Fund – the Competitiveness Operational Programme(1/07.07.2016, COP, ID 1334). D.R. was supported by the P2IO Excellence Center. Publisher Copyright: © 2019, The Author(s), under exclusive licence to Springer Nature Limited.

PY - 2019/4/1

Y1 - 2019/4/1

N2 - Exotic nuclei are characterized by having a number of neutrons (or protons) in excess relative to stable nuclei. Their shell structure, which represents single-particle motion in a nucleus1,2, may vary due to nuclear force and excess neutrons3–6, in a phenomenon called shell evolution7. This effect could be counterbalanced by collective modes causing deformations of the nuclear surface8. Here, we study the interplay between shell evolution and shape deformation by focusing on the magnetic moment of an isomeric state of the neutron-rich nucleus 75Cu. We measure the magnetic moment using highly spin-controlled rare-isotope beams and achieve large spin alignment via a two-step reaction scheme9 that incorporates an angular-momentum-selecting nucleon removal. By combining our experiments with numerical simulations of many-fermion correlations, we find that the low-lying states in 75Cu are, to a large extent, of single-particle nature on top of a correlated 74Ni core. We elucidate the crucial role of shell evolution even in the presence of the collective mode, and within the same framework we consider whether and how the double magicity of the 78Ni nucleus is restored, which is also of keen interest from the perspective of nucleosynthesis in explosive stellar processes.

AB - Exotic nuclei are characterized by having a number of neutrons (or protons) in excess relative to stable nuclei. Their shell structure, which represents single-particle motion in a nucleus1,2, may vary due to nuclear force and excess neutrons3–6, in a phenomenon called shell evolution7. This effect could be counterbalanced by collective modes causing deformations of the nuclear surface8. Here, we study the interplay between shell evolution and shape deformation by focusing on the magnetic moment of an isomeric state of the neutron-rich nucleus 75Cu. We measure the magnetic moment using highly spin-controlled rare-isotope beams and achieve large spin alignment via a two-step reaction scheme9 that incorporates an angular-momentum-selecting nucleon removal. By combining our experiments with numerical simulations of many-fermion correlations, we find that the low-lying states in 75Cu are, to a large extent, of single-particle nature on top of a correlated 74Ni core. We elucidate the crucial role of shell evolution even in the presence of the collective mode, and within the same framework we consider whether and how the double magicity of the 78Ni nucleus is restored, which is also of keen interest from the perspective of nucleosynthesis in explosive stellar processes.

UR - http://www.scopus.com/inward/record.url?scp=85060344360&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85060344360&partnerID=8YFLogxK

U2 - 10.1038/s41567-018-0410-7

DO - 10.1038/s41567-018-0410-7

M3 - Article

AN - SCOPUS:85060344360

SN - 1745-2473

VL - 15

SP - 321

EP - 325

JO - Nature Physics

JF - Nature Physics

IS - 4

ER -