Required precision of mass and half-life measurements for r-process nuclei planned at future radioactive-ion-beam facilities

Y. Motizuki; T. Tachibana; S. Goriely; H. Koura

doi:10.1051/eas:2004016

Required precision of mass and half-life measurements for r-process nuclei planned at future radioactive-ion-beam facilities

Y. Motizuki^*, T. Tachibana, S. Goriely, H. Koura

^*Corresponding author for this work

Waseda University Senior High School

Research output: Contribution to journal › Conference article › peer-review

Abstract

In order to understand the r-process nucleosynthesis, we evaluate the precision required for mass and β-decay half-life measurements planned at future radioactive-ion-beam facilities. To satisfy a simple requirement that we put on nuclear model predictions, it is concluded that the detectors for the mass measurements must have a precision of 1σ ≲ 250 keV₁ and that the detectors for the half-life measurements demand a precision of 1σ ≲ 0.15 ms. The above two specifications are required at the neutron richness of A/Z = 3.0 at the N = 82 shell closure and A/Z = 2.9 at the N = 50 shell closure. For the doubly magic nuclide ⁷⁸Ni, a precision of 1σ ≲ 300 keV and 1σ ≲ 5 ms are required, respectively, for mass and half-life measurements. This analysis aims at providing a first rough guide for ongoing detector developments.

Original language	English
Pages (from-to)	227-234
Number of pages	8
Journal	EAS Publications Series
Volume	11
DOIs	https://doi.org/10.1051/eas:2004016
Publication status	Published - 2004
Event	2004 IEEE Workshop on IP Operations and Management Proceedings, IPOM 2004: Self-Measurement and Self-Management of IP Networks and Services - Brussels, Belgium Duration: 2003 Aug 20 → 2003 Aug 22

ASJC Scopus subject areas

Astronomy and Astrophysics
Engineering(all)
Space and Planetary Science

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@article{00d2f4ab8ae74cc19c18576beb499346,

title = "Required precision of mass and half-life measurements for r-process nuclei planned at future radioactive-ion-beam facilities",

abstract = "In order to understand the r-process nucleosynthesis, we evaluate the precision required for mass and β-decay half-life measurements planned at future radioactive-ion-beam facilities. To satisfy a simple requirement that we put on nuclear model predictions, it is concluded that the detectors for the mass measurements must have a precision of 1σ ≲ 250 keV1 and that the detectors for the half-life measurements demand a precision of 1σ ≲ 0.15 ms. The above two specifications are required at the neutron richness of A/Z = 3.0 at the N = 82 shell closure and A/Z = 2.9 at the N = 50 shell closure. For the doubly magic nuclide 78Ni, a precision of 1σ ≲ 300 keV and 1σ ≲ 5 ms are required, respectively, for mass and half-life measurements. This analysis aims at providing a first rough guide for ongoing detector developments.",

author = "Y. Motizuki and T. Tachibana and S. Goriely and H. Koura",

year = "2004",

doi = "10.1051/eas:2004016",

language = "English",

volume = "11",

pages = "227--234",

journal = "EAS Publications Series",

issn = "1633-4760",

publisher = "EDP Sciences",

note = "2004 IEEE Workshop on IP Operations and Management Proceedings, IPOM 2004: Self-Measurement and Self-Management of IP Networks and Services ; Conference date: 20-08-2003 Through 22-08-2003",

}

TY - JOUR

T1 - Required precision of mass and half-life measurements for r-process nuclei planned at future radioactive-ion-beam facilities

AU - Motizuki, Y.

AU - Tachibana, T.

AU - Goriely, S.

AU - Koura, H.

PY - 2004

Y1 - 2004

N2 - In order to understand the r-process nucleosynthesis, we evaluate the precision required for mass and β-decay half-life measurements planned at future radioactive-ion-beam facilities. To satisfy a simple requirement that we put on nuclear model predictions, it is concluded that the detectors for the mass measurements must have a precision of 1σ ≲ 250 keV1 and that the detectors for the half-life measurements demand a precision of 1σ ≲ 0.15 ms. The above two specifications are required at the neutron richness of A/Z = 3.0 at the N = 82 shell closure and A/Z = 2.9 at the N = 50 shell closure. For the doubly magic nuclide 78Ni, a precision of 1σ ≲ 300 keV and 1σ ≲ 5 ms are required, respectively, for mass and half-life measurements. This analysis aims at providing a first rough guide for ongoing detector developments.

AB - In order to understand the r-process nucleosynthesis, we evaluate the precision required for mass and β-decay half-life measurements planned at future radioactive-ion-beam facilities. To satisfy a simple requirement that we put on nuclear model predictions, it is concluded that the detectors for the mass measurements must have a precision of 1σ ≲ 250 keV1 and that the detectors for the half-life measurements demand a precision of 1σ ≲ 0.15 ms. The above two specifications are required at the neutron richness of A/Z = 3.0 at the N = 82 shell closure and A/Z = 2.9 at the N = 50 shell closure. For the doubly magic nuclide 78Ni, a precision of 1σ ≲ 300 keV and 1σ ≲ 5 ms are required, respectively, for mass and half-life measurements. This analysis aims at providing a first rough guide for ongoing detector developments.

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DO - 10.1051/eas:2004016

M3 - Conference article

AN - SCOPUS:28844509226

SN - 1633-4760

VL - 11

SP - 227

EP - 234

JO - EAS Publications Series

JF - EAS Publications Series

T2 - 2004 IEEE Workshop on IP Operations and Management Proceedings, IPOM 2004: Self-Measurement and Self-Management of IP Networks and Services

Y2 - 20 August 2003 through 22 August 2003

ER -

Required precision of mass and half-life measurements for r-process nuclei planned at future radioactive-ion-beam facilities

Abstract

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