Further Evidence for Shape Coexistence in ^{79}Zn^{m} near Doubly Magic ^{78}Ni

L. Nies; L. Canete; D. D. Dao; S. Giraud; A. Kankainen; D. Lunney; F. Nowacki; B. Bastin; M. Stryjczyk; P. Ascher; K. Blaum; R. B. Cakirli; T. Eronen; P. Fischer; M. Flayol; V. Girard Alcindor; A. Herlert; A. Jokinen; A. Khanam; U. Köster; D. Lange; I. D. Moore; M. Müller; M. Mougeot; D. A. Nesterenko; H. Penttilä; C. Petrone; I. Pohjalainen; A. de Roubin; V. Rubchenya; Ch Schweiger; L. Schweikhard; M. Vilen; J. Äystö

doi:10.1103/PhysRevLett.131.222503

Further Evidence for Shape Coexistence in ^{79}Zn^{m} near Doubly Magic ^{78}Ni

L. Nies, L. Canete, D. D. Dao, S. Giraud, A. Kankainen, D. Lunney, F. Nowacki, B. Bastin, M. Stryjczyk, P. Ascher, K. Blaum, R. B. Cakirli, T. Eronen, P. Fischer, M. Flayol, V. Girard Alcindor, A. Herlert, A. Jokinen, A. Khanam, U. KösterD. Lange, I. D. Moore, M. Müller, M. Mougeot, D. A. Nesterenko, H. Penttilä, C. Petrone, I. Pohjalainen, A. de Roubin, V. Rubchenya, Ch Schweiger, L. Schweikhard, M. Vilen, J. Äystö

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Isomers close to doubly magic _{28}^{78}Ni_{50} provide essential information on the shell evolution and shape coexistence near the Z=28 and N=50 double shell closure. We report the excitation energy measurement of the 1/2^{+} isomer in _{30}^{79}Zn_{49} through independent high-precision mass measurements with the JYFLTRAP double Penning trap and with the ISOLTRAP multi-reflection time-of-flight mass spectrometer. We unambiguously place the 1/2^{+} isomer at 942(10) keV, slightly below the 5/2^{+} state at 983(3) keV. With the use of state-of-the-art shell-model diagonalizations, complemented with discrete nonorthogonal shell-model calculations which are used here for the first time to interpret shape coexistence, we find low-lying deformed intruder states, similar to other N=49 isotones. The 1/2^{+} isomer is interpreted as the bandhead of a low-lying deformed structure akin to a predicted low-lying deformed band in ^{80}Zn, and points to shape coexistence in ^{79,80}Zn similar to the one observed in ^{78}Ni. The results make a strong case for confirming the claim of shape coexistence in this key region of the nuclear chart.

Alkuperäiskieli	Englanti
Artikkeli	222503
Sivut	1-7
Sivumäärä	7
Julkaisu	Physical Review Letters
Vuosikerta	131
Numero	22
DOI - pysyväislinkit	https://doi.org/10.1103/PhysRevLett.131.222503
Tila	Julkaistu - 1 jouluk. 2023
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

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10.1103/PhysRevLett.131.222503Lisenssi: CC BY

Further Evidence for Shape Coexistence in 79Znm near Doubly Magic 78NiFinal published version, 1,01 MBLisenssi: CC BY

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Nies, L., Canete, L., Dao, D. D., Giraud, S., Kankainen, A., Lunney, D., Nowacki, F., Bastin, B., Stryjczyk, M., Ascher, P., Blaum, K., Cakirli, R. B., Eronen, T., Fischer, P., Flayol, M., Girard Alcindor, V., Herlert, A., Jokinen, A., Khanam, A., ... Äystö, J. (2023). Further Evidence for Shape Coexistence in ^{79}Zn^{m} near Doubly Magic ^{78}Ni. Physical Review Letters, 131(22), 1-7. Artikkeli 222503. https://doi.org/10.1103/PhysRevLett.131.222503

@article{e948b0eabc154e83891a0a0123cfbb0f,

title = "Further Evidence for Shape Coexistence in ^{79}Zn^{m} near Doubly Magic ^{78}Ni",

abstract = "Isomers close to doubly magic _{28}^{78}Ni_{50} provide essential information on the shell evolution and shape coexistence near the Z=28 and N=50 double shell closure. We report the excitation energy measurement of the 1/2^{+} isomer in _{30}^{79}Zn_{49} through independent high-precision mass measurements with the JYFLTRAP double Penning trap and with the ISOLTRAP multi-reflection time-of-flight mass spectrometer. We unambiguously place the 1/2^{+} isomer at 942(10) keV, slightly below the 5/2^{+} state at 983(3) keV. With the use of state-of-the-art shell-model diagonalizations, complemented with discrete nonorthogonal shell-model calculations which are used here for the first time to interpret shape coexistence, we find low-lying deformed intruder states, similar to other N=49 isotones. The 1/2^{+} isomer is interpreted as the bandhead of a low-lying deformed structure akin to a predicted low-lying deformed band in ^{80}Zn, and points to shape coexistence in ^{79,80}Zn similar to the one observed in ^{78}Ni. The results make a strong case for confirming the claim of shape coexistence in this key region of the nuclear chart.",

author = "L. Nies and L. Canete and Dao, {D. D.} and S. Giraud and A. Kankainen and D. Lunney and F. Nowacki and B. Bastin and M. Stryjczyk and P. Ascher and K. Blaum and Cakirli, {R. B.} and T. Eronen and P. Fischer and M. Flayol and {Girard Alcindor}, V. and A. Herlert and A. Jokinen and A. Khanam and U. K{\"o}ster and D. Lange and Moore, {I. D.} and M. M{\"u}ller and M. Mougeot and Nesterenko, {D. A.} and H. Penttil{\"a} and C. Petrone and I. Pohjalainen and {de Roubin}, A. and V. Rubchenya and Ch Schweiger and L. Schweikhard and M. Vilen and J. {\"A}yst{\"o}",

year = "2023",

month = dec,

day = "1",

doi = "10.1103/PhysRevLett.131.222503",

language = "English",

volume = "131",

pages = "1--7",

journal = "Physical Review Letters",

issn = "0031-9007",

publisher = "American Physical Society",

number = "22",

}

Nies, L, Canete, L, Dao, DD, Giraud, S, Kankainen, A, Lunney, D, Nowacki, F, Bastin, B, Stryjczyk, M, Ascher, P, Blaum, K, Cakirli, RB, Eronen, T, Fischer, P, Flayol, M, Girard Alcindor, V, Herlert, A, Jokinen, A, Khanam, A, Köster, U, Lange, D, Moore, ID, Müller, M, Mougeot, M, Nesterenko, DA, Penttilä, H, Petrone, C, Pohjalainen, I, de Roubin, A, Rubchenya, V, Schweiger, C, Schweikhard, L, Vilen, M & Äystö, J 2023, 'Further Evidence for Shape Coexistence in ^{79}Zn^{m} near Doubly Magic ^{78}Ni', Physical Review Letters, Vuosikerta 131, Nro 22, 222503, Sivut 1-7. https://doi.org/10.1103/PhysRevLett.131.222503

TY - JOUR

T1 - Further Evidence for Shape Coexistence in ^{79}Zn^{m} near Doubly Magic ^{78}Ni

AU - Nies, L.

AU - Canete, L.

AU - Dao, D. D.

AU - Giraud, S.

AU - Kankainen, A.

AU - Lunney, D.

AU - Nowacki, F.

AU - Bastin, B.

AU - Stryjczyk, M.

AU - Ascher, P.

AU - Blaum, K.

AU - Cakirli, R. B.

AU - Eronen, T.

AU - Fischer, P.

AU - Flayol, M.

AU - Girard Alcindor, V.

AU - Herlert, A.

AU - Jokinen, A.

AU - Khanam, A.

AU - Köster, U.

AU - Lange, D.

AU - Moore, I. D.

AU - Müller, M.

AU - Mougeot, M.

AU - Nesterenko, D. A.

AU - Penttilä, H.

AU - Petrone, C.

AU - Pohjalainen, I.

AU - de Roubin, A.

AU - Rubchenya, V.

AU - Schweiger, Ch

AU - Schweikhard, L.

AU - Vilen, M.

AU - Äystö, J.

PY - 2023/12/1

Y1 - 2023/12/1

N2 - Isomers close to doubly magic _{28}^{78}Ni_{50} provide essential information on the shell evolution and shape coexistence near the Z=28 and N=50 double shell closure. We report the excitation energy measurement of the 1/2^{+} isomer in _{30}^{79}Zn_{49} through independent high-precision mass measurements with the JYFLTRAP double Penning trap and with the ISOLTRAP multi-reflection time-of-flight mass spectrometer. We unambiguously place the 1/2^{+} isomer at 942(10) keV, slightly below the 5/2^{+} state at 983(3) keV. With the use of state-of-the-art shell-model diagonalizations, complemented with discrete nonorthogonal shell-model calculations which are used here for the first time to interpret shape coexistence, we find low-lying deformed intruder states, similar to other N=49 isotones. The 1/2^{+} isomer is interpreted as the bandhead of a low-lying deformed structure akin to a predicted low-lying deformed band in ^{80}Zn, and points to shape coexistence in ^{79,80}Zn similar to the one observed in ^{78}Ni. The results make a strong case for confirming the claim of shape coexistence in this key region of the nuclear chart.

AB - Isomers close to doubly magic _{28}^{78}Ni_{50} provide essential information on the shell evolution and shape coexistence near the Z=28 and N=50 double shell closure. We report the excitation energy measurement of the 1/2^{+} isomer in _{30}^{79}Zn_{49} through independent high-precision mass measurements with the JYFLTRAP double Penning trap and with the ISOLTRAP multi-reflection time-of-flight mass spectrometer. We unambiguously place the 1/2^{+} isomer at 942(10) keV, slightly below the 5/2^{+} state at 983(3) keV. With the use of state-of-the-art shell-model diagonalizations, complemented with discrete nonorthogonal shell-model calculations which are used here for the first time to interpret shape coexistence, we find low-lying deformed intruder states, similar to other N=49 isotones. The 1/2^{+} isomer is interpreted as the bandhead of a low-lying deformed structure akin to a predicted low-lying deformed band in ^{80}Zn, and points to shape coexistence in ^{79,80}Zn similar to the one observed in ^{78}Ni. The results make a strong case for confirming the claim of shape coexistence in this key region of the nuclear chart.

UR - http://www.scopus.com/inward/record.url?scp=85179899192&partnerID=8YFLogxK

U2 - 10.1103/PhysRevLett.131.222503

DO - 10.1103/PhysRevLett.131.222503

M3 - Article

C2 - 38101393

AN - SCOPUS:85179899192

SN - 0031-9007

VL - 131

SP - 1

EP - 7

JO - Physical Review Letters

JF - Physical Review Letters

IS - 22

M1 - 222503

ER -

Further Evidence for Shape Coexistence in ^{79}Zn^{m} near Doubly Magic ^{78}Ni

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