Precision mass measurements of Fe 67 and Co 69,70: Nuclear structure toward N=40 and impact on r -process reaction rates

L. Canete; S. Giraud; A. Kankainen; B. Bastin; F. Nowacki; A. Poves; P. Ascher; Tommi Eronen; V. Girard Alcindor; Ari Jokinen; A. Khanam; I. D. Moore; D. A. Nesterenko; F. De Oliveira Santos; Heikki Penttilä; C. Petrone; Tapio Pohjalainen; A. de Roubin; V. A. Rubchenya; M. Vilen; Juha Äystö

doi:10.1103/PhysRevC.101.041304

Precision mass measurements of Fe 67 and Co 69,70: Nuclear structure toward N=40 and impact on r -process reaction rates

L. Canete^*, S. Giraud, A. Kankainen, B. Bastin, F. Nowacki, A. Poves, P. Ascher, Tommi Eronen, V. Girard Alcindor, Ari Jokinen, A. Khanam, I. D. Moore, D. A. Nesterenko, F. De Oliveira Santos, Heikki Penttilä, C. Petrone, Tapio Pohjalainen, A. de Roubin, V. A. Rubchenya, M. VilenJuha Äystö

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Accurate mass measurements of neutron-rich iron and cobalt isotopes Fe-67 and Co-69,Co-70 have been realized with the JYFLTRAP double Penning-trap mass spectrometer. With novel ion-manipulation techniques, the masses of the Co-69,Co-70 ground states and the 1/2(-) isomer in Co-69 have been extracted for the first time. The measurements remove ambiguities in the previous mass values and yield a smoother trend on the mass surface, extending it beyond N = 40. The moderate N = 40 subshell gap has been found to weaken below Ni-68, a region known for shape coexistence and increased collectivity. The excitation energy for the 1/2(-) intruder state in Co-69 has been determined for the first time and is compared to large-scale shell-model calculations. The new mass values also reduce significantly mass-related uncertainties for the astrophysical rapid neutron-capture process calculations.

Alkuperäiskieli	Englanti
Artikkeli	041304
Sivumäärä	7
Julkaisu	PHYSICAL REVIEW C
Vuosikerta	101
Numero	4
DOI - pysyväislinkit	https://doi.org/10.1103/PhysRevC.101.041304
Tila	Julkaistu - 20 huhtik. 2020
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

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10.1103/PhysRevC.101.041304

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Canete, L., Giraud, S., Kankainen, A., Bastin, B., Nowacki, F., Poves, A., Ascher, P., Eronen, T., Alcindor, V. G., Jokinen, A., Khanam, A., Moore, I. D., Nesterenko, D. A., Santos, F. D. O., Penttilä, H., Petrone, C., Pohjalainen, T., de Roubin, A., Rubchenya, V. A., ... Äystö, J. (2020). Precision mass measurements of Fe 67 and Co 69,70: Nuclear structure toward N=40 and impact on r -process reaction rates. PHYSICAL REVIEW C, 101(4), Artikkeli 041304. https://doi.org/10.1103/PhysRevC.101.041304

@article{4309e6d637b24cd38ee8e782e7b4f71e,

title = "Precision mass measurements of Fe 67 and Co 69,70: Nuclear structure toward N=40 and impact on r -process reaction rates",

abstract = "Accurate mass measurements of neutron-rich iron and cobalt isotopes Fe-67 and Co-69,Co-70 have been realized with the JYFLTRAP double Penning-trap mass spectrometer. With novel ion-manipulation techniques, the masses of the Co-69,Co-70 ground states and the 1/2(-) isomer in Co-69 have been extracted for the first time. The measurements remove ambiguities in the previous mass values and yield a smoother trend on the mass surface, extending it beyond N = 40. The moderate N = 40 subshell gap has been found to weaken below Ni-68, a region known for shape coexistence and increased collectivity. The excitation energy for the 1/2(-) intruder state in Co-69 has been determined for the first time and is compared to large-scale shell-model calculations. The new mass values also reduce significantly mass-related uncertainties for the astrophysical rapid neutron-capture process calculations.",

keywords = "ASTROPHYSICAL REACTION-RATES, PENNING TRAPS, RAMSEY METHOD, ISOTOPES, DECAY, SPECTROMETRY, CLOSURE, YIELDS, ISLAND, NI",

author = "L. Canete and S. Giraud and A. Kankainen and B. Bastin and F. Nowacki and A. Poves and P. Ascher and Tommi Eronen and Alcindor, {V. Girard} and Ari Jokinen and A. Khanam and Moore, {I. D.} and Nesterenko, {D. A.} and Santos, {F. De Oliveira} and Heikki Penttil{\"a} and C. Petrone and Tapio Pohjalainen and {de Roubin}, A. and Rubchenya, {V. A.} and M. Vilen and Juha {\"A}yst{\"o}",

year = "2020",

month = apr,

day = "20",

doi = "10.1103/PhysRevC.101.041304",

language = "English",

volume = "101",

journal = "PHYSICAL REVIEW C",

issn = "2469-9985",

publisher = "American Physical Society",

number = "4",

}

Canete, L, Giraud, S, Kankainen, A, Bastin, B, Nowacki, F, Poves, A, Ascher, P, Eronen, T, Alcindor, VG, Jokinen, A, Khanam, A, Moore, ID, Nesterenko, DA, Santos, FDO, Penttilä, H, Petrone, C, Pohjalainen, T, de Roubin, A, Rubchenya, VA, Vilen, M & Äystö, J 2020, 'Precision mass measurements of Fe 67 and Co 69,70: Nuclear structure toward N=40 and impact on r -process reaction rates', PHYSICAL REVIEW C, Vuosikerta 101, Nro 4, 041304. https://doi.org/10.1103/PhysRevC.101.041304

TY - JOUR

T1 - Precision mass measurements of Fe 67 and Co 69,70: Nuclear structure toward N=40 and impact on r -process reaction rates

AU - Canete, L.

AU - Giraud, S.

AU - Kankainen, A.

AU - Bastin, B.

AU - Nowacki, F.

AU - Poves, A.

AU - Ascher, P.

AU - Eronen, Tommi

AU - Alcindor, V. Girard

AU - Jokinen, Ari

AU - Khanam, A.

AU - Moore, I. D.

AU - Nesterenko, D. A.

AU - Santos, F. De Oliveira

AU - Penttilä, Heikki

AU - Petrone, C.

AU - Pohjalainen, Tapio

AU - de Roubin, A.

AU - Rubchenya, V. A.

AU - Vilen, M.

AU - Äystö, Juha

PY - 2020/4/20

Y1 - 2020/4/20

N2 - Accurate mass measurements of neutron-rich iron and cobalt isotopes Fe-67 and Co-69,Co-70 have been realized with the JYFLTRAP double Penning-trap mass spectrometer. With novel ion-manipulation techniques, the masses of the Co-69,Co-70 ground states and the 1/2(-) isomer in Co-69 have been extracted for the first time. The measurements remove ambiguities in the previous mass values and yield a smoother trend on the mass surface, extending it beyond N = 40. The moderate N = 40 subshell gap has been found to weaken below Ni-68, a region known for shape coexistence and increased collectivity. The excitation energy for the 1/2(-) intruder state in Co-69 has been determined for the first time and is compared to large-scale shell-model calculations. The new mass values also reduce significantly mass-related uncertainties for the astrophysical rapid neutron-capture process calculations.

AB - Accurate mass measurements of neutron-rich iron and cobalt isotopes Fe-67 and Co-69,Co-70 have been realized with the JYFLTRAP double Penning-trap mass spectrometer. With novel ion-manipulation techniques, the masses of the Co-69,Co-70 ground states and the 1/2(-) isomer in Co-69 have been extracted for the first time. The measurements remove ambiguities in the previous mass values and yield a smoother trend on the mass surface, extending it beyond N = 40. The moderate N = 40 subshell gap has been found to weaken below Ni-68, a region known for shape coexistence and increased collectivity. The excitation energy for the 1/2(-) intruder state in Co-69 has been determined for the first time and is compared to large-scale shell-model calculations. The new mass values also reduce significantly mass-related uncertainties for the astrophysical rapid neutron-capture process calculations.

KW - ASTROPHYSICAL REACTION-RATES

KW - PENNING TRAPS

KW - RAMSEY METHOD

KW - ISOTOPES

KW - DECAY

KW - SPECTROMETRY

KW - CLOSURE

KW - YIELDS

KW - ISLAND

KW - NI

UR - http://www.scopus.com/inward/record.url?scp=85082956658&partnerID=8YFLogxK

U2 - 10.1103/PhysRevC.101.041304

DO - 10.1103/PhysRevC.101.041304

M3 - Article

SN - 2469-9985

VL - 101

JO - PHYSICAL REVIEW C

JF - PHYSICAL REVIEW C

IS - 4

M1 - 041304

ER -

Precision mass measurements of Fe 67 and Co 69,70: Nuclear structure toward N=40 and impact on r -process reaction rates

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