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Mass measurements of Ga 60-63 reduce x-ray burst model uncertainties and extend the evaluated T=1 isobaric multiplet mass equation

Publication ,  Journal Article
Paul, SF; Bergmann, J; Cardona, JD; Dietrich, KA; Dunling, E; Hockenbery, Z; Hornung, C; Izzo, C; Jacobs, A; Javaji, A; Kootte, B; Lan, Y ...
Published in: Physical Review C
December 1, 2021
Published version (DOI)

We report precision mass measurements of neutron-deficient gallium isotopes approaching the proton drip line. The measurements of Ga60-63 performed with the TITAN multiple-reflection time-of-flight mass spectrometer provide a more than threefold improvement over the current literature mass uncertainty of Ga61 and mark the first direct mass measurement of Ga60. The improved precision of the Ga61 mass has important implications for the astrophysical rp process, as it constrains essential reaction Q values near the Zn60 waiting point. Based on calculations with a one-zone model, we demonstrate the impact of the improved mass data on prediction uncertainties of x-ray burst models. The first-time measurement of the Ga60 ground-state mass establishes the proton-bound nature of this nuclide, thus constraining the location of the proton drip line along this isotopic chain. Including the measured mass of Ga60 further enables us to extend the evaluated T=1 isobaric multiplet mass equation up to A=60.

Duke Scholars

Jens Dilling
Author Jens Dilling Physics
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Published In

Physical Review C

DOI

10.1103/PhysRevC.104.065803

EISSN

2469-9993

ISSN

2469-9985

Publication Date

December 1, 2021

Volume

104

Issue

6

Related Subject Headings

  • 5106 Nuclear and plasma physics
 

Citation

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Paul, S. F., Bergmann, J., Cardona, J. D., Dietrich, K. A., Dunling, E., Hockenbery, Z., … Kwiatkowski, A. A. (2021). Mass measurements of Ga 60-63 reduce x-ray burst model uncertainties and extend the evaluated T=1 isobaric multiplet mass equation. Physical Review C, 104(6). https://doi.org/10.1103/PhysRevC.104.065803
Paul, S. F., J. Bergmann, J. D. Cardona, K. A. Dietrich, E. Dunling, Z. Hockenbery, C. Hornung, et al. “Mass measurements of Ga 60-63 reduce x-ray burst model uncertainties and extend the evaluated T=1 isobaric multiplet mass equation.” Physical Review C 104, no. 6 (December 1, 2021). https://doi.org/10.1103/PhysRevC.104.065803.
Paul SF, Bergmann J, Cardona JD, Dietrich KA, Dunling E, Hockenbery Z, et al. Mass measurements of Ga 60-63 reduce x-ray burst model uncertainties and extend the evaluated T=1 isobaric multiplet mass equation. Physical Review C. 2021 Dec 1;104(6).
Paul, S. F., et al. “Mass measurements of Ga 60-63 reduce x-ray burst model uncertainties and extend the evaluated T=1 isobaric multiplet mass equation.” Physical Review C, vol. 104, no. 6, Dec. 2021. Scopus, doi:10.1103/PhysRevC.104.065803.
Paul SF, Bergmann J, Cardona JD, Dietrich KA, Dunling E, Hockenbery Z, Hornung C, Izzo C, Jacobs A, Javaji A, Kootte B, Lan Y, Leistenschneider E, Lykiardopoulou EM, Mukul I, Murböck T, Porter WS, Silwal R, Smith MB, Ringuette J, Brunner T, Dickel T, Dillmann I, Gwinner G, MacCormick M, Reiter MP, Schatz H, Smirnova NA, Dilling J, Kwiatkowski AA. Mass measurements of Ga 60-63 reduce x-ray burst model uncertainties and extend the evaluated T=1 isobaric multiplet mass equation. Physical Review C. 2021 Dec 1;104(6).

Published In

Physical Review C

DOI

10.1103/PhysRevC.104.065803

EISSN

2469-9993

ISSN

2469-9985

Publication Date

December 1, 2021

Volume

104

Issue

6

Related Subject Headings

  • 5106 Nuclear and plasma physics