78Ni revealed as a doubly magic stronghold against nuclear deformation

被引:0
|
作者
R. Taniuchi
C. Santamaria
P. Doornenbal
A. Obertelli
K. Yoneda
G. Authelet
H. Baba
D. Calvet
F. Château
A. Corsi
A. Delbart
J.-M. Gheller
A. Gillibert
J. D. Holt
T. Isobe
V. Lapoux
M. Matsushita
J. Menéndez
S. Momiyama
T. Motobayashi
M. Niikura
F. Nowacki
K. Ogata
H. Otsu
T. Otsuka
C. Péron
S. Péru
A. Peyaud
E. C. Pollacco
A. Poves
J.-Y. Roussé
H. Sakurai
A. Schwenk
Y. Shiga
J. Simonis
S. R. Stroberg
S. Takeuchi
Y. Tsunoda
T. Uesaka
H. Wang
F. Browne
L. X. Chung
Z. Dombradi
S. Franchoo
F. Giacoppo
A. Gottardo
K. Hadyńska-Klęk
Z. Korkulu
S. Koyama
Y. Kubota
机构
[1] The University of Tokyo,Department of Physics
[2] RIKEN Nishina Center,Center for Nuclear Study
[3] IRFU,Research Center for Nuclear Physics
[4] CEA,Department of Physics
[5] Université Paris-Saclay,Departamento de Física Teorica and IFT
[6] Institut für Kernphysik,UAM/CSIC
[7] Technische Universität Darmstadt,Department of Physics
[8] TRIUMF,Institut für Kernphysik and PRISMA Cluster of Excellence
[9] The University of Tokyo,School of Computing, Engineering and Mathematics
[10] IPHC,Institut de Physique Nucléaire, CNRS/IN2P3
[11] CNRS/IN2P3,Department of Physics
[12] Université de Strasbourg,Department of Physics
[13] Osaka University,Department of Physics
[14] Osaka City University,Department of Physics
[15] CEA,State Key Laboratory of Nuclear Physics and Technology
[16] DAM,undefined
[17] DIF,undefined
[18] Universidad Autónoma de Madrid,undefined
[19] ExtreMe Matter Institute (EMMI),undefined
[20] GSI Helmholtzzentrum für Schwerionenforschung,undefined
[21] Max-Planck-Institut für Kernphysik,undefined
[22] Rikkyo University,undefined
[23] Johannes Gutenberg-Universität Mainz,undefined
[24] Physics Department,undefined
[25] Reed College,undefined
[26] University of Brighton,undefined
[27] Institute for Nuclear Science & Technology,undefined
[28] VINATOM,undefined
[29] MTA Atomki,undefined
[30] Université Paris-Saclay,undefined
[31] University of Oslo,undefined
[32] The University of Hong Kong,undefined
[33] CSNSM,undefined
[34] CNRS/IN2P3,undefined
[35] Université Paris-Saclay,undefined
[36] University of Surrey,undefined
[37] Tohoku University,undefined
[38] Peking University,undefined
来源
Nature | 2019年 / 569卷
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摘要
Nuclear magic numbers correspond to fully occupied energy shells of protons or neutrons inside atomic nuclei. Doubly magic nuclei, with magic numbers for both protons and neutrons, are spherical and extremely rare across the nuclear landscape. Although the sequence of magic numbers is well established for stable nuclei, experimental evidence has revealed modifications for nuclei with a large asymmetry between proton and neutron numbers. Here we provide a spectroscopic study of the doubly magic nucleus 78Ni, which contains fourteen neutrons more than the heaviest stable nickel isotope. We provide direct evidence of its doubly magic nature, which is also predicted by ab initio calculations based on chiral effective-field theory interactions and the quasi-particle random-phase approximation. Our results also indicate the breakdown of the neutron magic number 50 and proton magic number 28 beyond this stronghold, caused by a competing deformed structure. State-of-the-art phenomenological shell-model calculations reproduce this shape coexistence, predicting a rapid transition from spherical to deformed ground states, with 78Ni as the turning point.
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页码:53 / 58
页数:5
相关论文
共 38 条
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