Physics potential of a long-baseline neutrino oscillation experiment using a J-PARC neutrino beam and Hyper-Kamiokande

Hyper-Kamiokande Proto-Collaboration

doi:10.1093/ptep/ptv061

Physics potential of a long-baseline neutrino oscillation experiment using a J-PARC neutrino beam and Hyper-Kamiokande

Hyper-Kamiokande Proto-Collaboration

Department of Physics

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260 Citations (Scopus)

Abstract

Hyper-Kamiokande will be a next-generation underground water Cherenkov detector with a total (fiducial) mass of 0.99 (0.56) million metric tons, approximately 20 (25) times larger than that of Super-Kamiokande. One of the main goals of Hyper-Kamiokande is the study of CP asymmetry in the lepton sector using accelerator neutrino and anti-neutrino beams. In this paper, the physics potential of a long-baseline neutrino experiment using the Hyper- Kamiokande detector and a neutrino beam from the J-PARC proton synchrotron is presented. The analysis uses the framework and systematic uncertainties derived from the ongoing T2K experiment. With a total exposure of 7.5MW ×10⁷s integrated proton beam power (corresponding to 1.56 × 10²²protons on target with a 30 GeV proton beam) to a 2.5° off-axis neutrino beam, it is expected that the leptonic CP phase δ_CPcan be determined to better than 19 degrees for all possible values of δ_CP, and CP violation can be established with a statistical significance of more than 3 σ (5 σ) for 76% (58%) of the δ_CPparameter space. Using both ν_eappearance and νμ disappearance data, the expected 1 σ uncertainty of sin²Θ₂₃is 0.015(0.006) for sin²Θ₂₃= 0.5(0.45).

Original language	English
Article number	053C02
Journal	Progress of Theoretical and Experimental Physics
Volume	2015
Issue number	5
DOIs	https://doi.org/10.1093/ptep/ptv061
Publication status	Published - 2015

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1093/ptep/ptv061

Cite this

@article{cce4f15772a9455fa20a21b158bf91c7,

title = "Physics potential of a long-baseline neutrino oscillation experiment using a J-PARC neutrino beam and Hyper-Kamiokande",

abstract = "Hyper-Kamiokande will be a next-generation underground water Cherenkov detector with a total (fiducial) mass of 0.99 (0.56) million metric tons, approximately 20 (25) times larger than that of Super-Kamiokande. One of the main goals of Hyper-Kamiokande is the study of CP asymmetry in the lepton sector using accelerator neutrino and anti-neutrino beams. In this paper, the physics potential of a long-baseline neutrino experiment using the Hyper- Kamiokande detector and a neutrino beam from the J-PARC proton synchrotron is presented. The analysis uses the framework and systematic uncertainties derived from the ongoing T2K experiment. With a total exposure of 7.5MW ×107s integrated proton beam power (corresponding to 1.56 × 1022protons on target with a 30 GeV proton beam) to a 2.5° off-axis neutrino beam, it is expected that the leptonic CP phase δCPcan be determined to better than 19 degrees for all possible values of δCP, and CP violation can be established with a statistical significance of more than 3 σ (5 σ) for 76% (58%) of the δCPparameter space. Using both νeappearance and νμ disappearance data, the expected 1 σ uncertainty of sin2Θ23is 0.015(0.006) for sin2Θ23= 0.5(0.45).",

author = "{Hyper-Kamiokande Proto-Collaboration} and K. Abe and H. Aihara and C. Andreopoulos and I. Anghel and A. Ariga and T. Ariga and R. Asfandiyarov and M. Askins and Back, {J. J.} and P. Ballett and M. Barbi and Barker, {G. J.} and G. Barr and F. Bay and P. Beltrame and V. Berardi and M. Bergevin and S. Berkman and T. Berry and S. Bhadra and Blaszczyk, {F. D.M.} and A. Blondel and S. Bolognesi and Boyd, {S. B.} and A. Bravar and C. Bronner and Cafagna, {F. S.} and G. Carminati and Cartwright, {S. L.} and Catanesi, {M. G.} and K. Choi and Choi, {J. H.} and G. Collazuol and G. Cowan and L. Cremonesi and G. Davies and {De Rosa}, G. and C. Densham and J. Detwiler and D. Dewhurst and {Di Lodovico}, F. and {Di Luise}, S. and O. Drapier and S. Emery and A. Ereditato and P. Fern{\'a}ndez and T. Feusels and A. Finch and M. Fitton and Y. Nishimura",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2015.",

year = "2015",

doi = "10.1093/ptep/ptv061",

language = "English",

volume = "2015",

journal = "Progress of Theoretical and Experimental Physics",

issn = "2050-3911",

publisher = "Oxford University Press",

number = "5",

}

TY - JOUR

T1 - Physics potential of a long-baseline neutrino oscillation experiment using a J-PARC neutrino beam and Hyper-Kamiokande

AU - Hyper-Kamiokande Proto-Collaboration

AU - Abe, K.

AU - Aihara, H.

AU - Andreopoulos, C.

AU - Anghel, I.

AU - Ariga, A.

AU - Ariga, T.

AU - Asfandiyarov, R.

AU - Askins, M.

AU - Back, J. J.

AU - Ballett, P.

AU - Barbi, M.

AU - Barker, G. J.

AU - Barr, G.

AU - Bay, F.

AU - Beltrame, P.

AU - Berardi, V.

AU - Bergevin, M.

AU - Berkman, S.

AU - Berry, T.

AU - Bhadra, S.

AU - Blaszczyk, F. D.M.

AU - Blondel, A.

AU - Bolognesi, S.

AU - Boyd, S. B.

AU - Bravar, A.

AU - Bronner, C.

AU - Cafagna, F. S.

AU - Carminati, G.

AU - Cartwright, S. L.

AU - Catanesi, M. G.

AU - Choi, K.

AU - Choi, J. H.

AU - Collazuol, G.

AU - Cowan, G.

AU - Cremonesi, L.

AU - Davies, G.

AU - De Rosa, G.

AU - Densham, C.

AU - Detwiler, J.

AU - Dewhurst, D.

AU - Di Lodovico, F.

AU - Di Luise, S.

AU - Drapier, O.

AU - Emery, S.

AU - Ereditato, A.

AU - Fernández, P.

AU - Feusels, T.

AU - Finch, A.

AU - Fitton, M.

AU - Nishimura, Y.

PY - 2015

Y1 - 2015

N2 - Hyper-Kamiokande will be a next-generation underground water Cherenkov detector with a total (fiducial) mass of 0.99 (0.56) million metric tons, approximately 20 (25) times larger than that of Super-Kamiokande. One of the main goals of Hyper-Kamiokande is the study of CP asymmetry in the lepton sector using accelerator neutrino and anti-neutrino beams. In this paper, the physics potential of a long-baseline neutrino experiment using the Hyper- Kamiokande detector and a neutrino beam from the J-PARC proton synchrotron is presented. The analysis uses the framework and systematic uncertainties derived from the ongoing T2K experiment. With a total exposure of 7.5MW ×107s integrated proton beam power (corresponding to 1.56 × 1022protons on target with a 30 GeV proton beam) to a 2.5° off-axis neutrino beam, it is expected that the leptonic CP phase δCPcan be determined to better than 19 degrees for all possible values of δCP, and CP violation can be established with a statistical significance of more than 3 σ (5 σ) for 76% (58%) of the δCPparameter space. Using both νeappearance and νμ disappearance data, the expected 1 σ uncertainty of sin2Θ23is 0.015(0.006) for sin2Θ23= 0.5(0.45).

AB - Hyper-Kamiokande will be a next-generation underground water Cherenkov detector with a total (fiducial) mass of 0.99 (0.56) million metric tons, approximately 20 (25) times larger than that of Super-Kamiokande. One of the main goals of Hyper-Kamiokande is the study of CP asymmetry in the lepton sector using accelerator neutrino and anti-neutrino beams. In this paper, the physics potential of a long-baseline neutrino experiment using the Hyper- Kamiokande detector and a neutrino beam from the J-PARC proton synchrotron is presented. The analysis uses the framework and systematic uncertainties derived from the ongoing T2K experiment. With a total exposure of 7.5MW ×107s integrated proton beam power (corresponding to 1.56 × 1022protons on target with a 30 GeV proton beam) to a 2.5° off-axis neutrino beam, it is expected that the leptonic CP phase δCPcan be determined to better than 19 degrees for all possible values of δCP, and CP violation can be established with a statistical significance of more than 3 σ (5 σ) for 76% (58%) of the δCPparameter space. Using both νeappearance and νμ disappearance data, the expected 1 σ uncertainty of sin2Θ23is 0.015(0.006) for sin2Θ23= 0.5(0.45).

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U2 - 10.1093/ptep/ptv061

DO - 10.1093/ptep/ptv061

M3 - Article

AN - SCOPUS:84942097867

SN - 2050-3911

VL - 2015

JO - Progress of Theoretical and Experimental Physics

JF - Progress of Theoretical and Experimental Physics

IS - 5

M1 - 053C02

ER -

Physics potential of a long-baseline neutrino oscillation experiment using a J-PARC neutrino beam and Hyper-Kamiokande

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