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Measurement of the 8B solar neutrino flux using the full SNO+ water phase dataset

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Measurement of the 8B solar neutrino flux using the full SNO+ water phase dataset. / SNO+ Collaboration.
In: Physical Review D, Vol. 110, No. 12, 122003, 16.12.2024.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

SNO+ Collaboration 2024, 'Measurement of the 8B solar neutrino flux using the full SNO+ water phase dataset', Physical Review D, vol. 110, no. 12, 122003. https://doi.org/10.1103/physrevd.110.122003

APA

SNO+ Collaboration (2024). Measurement of the 8B solar neutrino flux using the full SNO+ water phase dataset. Physical Review D, 110(12), Article 122003. https://doi.org/10.1103/physrevd.110.122003

Vancouver

SNO+ Collaboration. Measurement of the 8B solar neutrino flux using the full SNO+ water phase dataset. Physical Review D. 2024 Dec 16;110(12):122003. doi: 10.1103/physrevd.110.122003

Author

SNO+ Collaboration. / Measurement of the 8B solar neutrino flux using the full SNO+ water phase dataset. In: Physical Review D. 2024 ; Vol. 110, No. 12.

Bibtex

@article{343ce32a1ad54292a1e3da85ce612618,
title = "Measurement of the 8B solar neutrino flux using the full SNO+ water phase dataset",
abstract = "The SNO+ detector operated initially as a water Cherenkov detector. The implementation of a sealed cover gas system midway through water data taking resulted in a significant reduction in the activity of Rn222 daughters in the detector and allowed the lowest background to the solar electron scattering signal above 5 MeV achieved to date. This paper reports an updated SNO+ water phase B8 solar neutrino analysis with a total livetime of 282.4 days and an analysis threshold of 3.5 MeV. The B8 solar neutrino flux is found to be (2.32-0.17+0.18(stat)-0.05+0.07(syst))×106 cm-2 s-1 assuming no neutrino oscillations, or (5.36-0.39+0.41(stat)-0.16+0.17(syst))×106 cm-2 s-1 assuming standard neutrino oscillation parameters, in good agreement with both previous measurements and standard solar model calculations. The electron recoil spectrum is presented above 3.5 MeV.",
author = "{SNO+ Collaboration} and L. L. Kormos and Helen O'Keeffe",
year = "2024",
month = dec,
day = "16",
doi = "10.1103/physrevd.110.122003",
language = "English",
volume = "110",
journal = "Physical Review D",
issn = "2470-0010",
publisher = "American Physical Society",
number = "12",

}

RIS

TY - JOUR

T1 - Measurement of the 8B solar neutrino flux using the full SNO+ water phase dataset

AU - SNO+ Collaboration

AU - Kormos, L. L.

AU - O'Keeffe, Helen

PY - 2024/12/16

Y1 - 2024/12/16

N2 - The SNO+ detector operated initially as a water Cherenkov detector. The implementation of a sealed cover gas system midway through water data taking resulted in a significant reduction in the activity of Rn222 daughters in the detector and allowed the lowest background to the solar electron scattering signal above 5 MeV achieved to date. This paper reports an updated SNO+ water phase B8 solar neutrino analysis with a total livetime of 282.4 days and an analysis threshold of 3.5 MeV. The B8 solar neutrino flux is found to be (2.32-0.17+0.18(stat)-0.05+0.07(syst))×106 cm-2 s-1 assuming no neutrino oscillations, or (5.36-0.39+0.41(stat)-0.16+0.17(syst))×106 cm-2 s-1 assuming standard neutrino oscillation parameters, in good agreement with both previous measurements and standard solar model calculations. The electron recoil spectrum is presented above 3.5 MeV.

AB - The SNO+ detector operated initially as a water Cherenkov detector. The implementation of a sealed cover gas system midway through water data taking resulted in a significant reduction in the activity of Rn222 daughters in the detector and allowed the lowest background to the solar electron scattering signal above 5 MeV achieved to date. This paper reports an updated SNO+ water phase B8 solar neutrino analysis with a total livetime of 282.4 days and an analysis threshold of 3.5 MeV. The B8 solar neutrino flux is found to be (2.32-0.17+0.18(stat)-0.05+0.07(syst))×106 cm-2 s-1 assuming no neutrino oscillations, or (5.36-0.39+0.41(stat)-0.16+0.17(syst))×106 cm-2 s-1 assuming standard neutrino oscillation parameters, in good agreement with both previous measurements and standard solar model calculations. The electron recoil spectrum is presented above 3.5 MeV.

U2 - 10.1103/physrevd.110.122003

DO - 10.1103/physrevd.110.122003

M3 - Journal article

VL - 110

JO - Physical Review D

JF - Physical Review D

SN - 2470-0010

IS - 12

M1 - 122003

ER -