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The Short-Baseline Near Detector at Fermilab

Research output: Working paperPreprint

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The Short-Baseline Near Detector at Fermilab. / SBND Collaboration ; Blake, A.; Brailsford, D. et al.
Arxiv, 2025.

Research output: Working paperPreprint

Harvard

SBND Collaboration, Blake, A, Brailsford, D, Coackley, R, McCusker, B, Nowak, J & Ratoff, P 2025 'The Short-Baseline Near Detector at Fermilab' Arxiv. https://doi.org/10.48550/arXiv.2504.00245

APA

SBND Collaboration, Blake, A., Brailsford, D., Coackley, R., McCusker, B., Nowak, J., & Ratoff, P. (2025). The Short-Baseline Near Detector at Fermilab. Arxiv. https://doi.org/10.48550/arXiv.2504.00245

Vancouver

SBND Collaboration, Blake A, Brailsford D, Coackley R, McCusker B, Nowak J et al. The Short-Baseline Near Detector at Fermilab. Arxiv. 2025 Mar 31. doi: 10.48550/arXiv.2504.00245

Author

SBND Collaboration ; Blake, A. ; Brailsford, D. et al. / The Short-Baseline Near Detector at Fermilab. Arxiv, 2025.

Bibtex

@techreport{2f4ae3cf630c40a68f436981f95a4327,
title = "The Short-Baseline Near Detector at Fermilab",
abstract = "SBND is a 112 ton liquid argon time projection chamber (LArTPC) neutrino detector located 110 meters from the Booster Neutrino Beam (BNB) target at Fermilab. Its main goals include searches for eV-scale sterile neutrinos as part of the Short-Baseline Neutrino (SBN) program, other searches for physics beyond the Standard Model, and precision studies of neutrino-argon interactions. In addition, SBND is providing a platform for LArTPC neutrino detector technology development and is an excellent training ground for the international group of scientists and engineers working towards the upcoming flagship Deep Underground Neutrino Experiment (DUNE). SBND began operation in July 2024, and started collecting stable neutrino beam data in December 2024 with an unprecedented rate of ~7,000 neutrino events per day. During its currently approved operation plans (2024-2027), SBND is expected to accumulate nearly 10 million neutrino interactions. The near detector dataset will be instrumental in testing the sterile neutrino hypothesis with unprecedented sensitivity in SBN and in probing signals of beyond the Standard Model physics. It will also be used to significantly advance our understanding of the physics of neutrino-argon interactions ahead of DUNE. After the planned accelerator restart at Fermilab (2029+), opportunities are being explored to operate SBND in antineutrino mode in order to address the scarcity of antineutrino-argon scattering data, or in a dedicated beam-dump mode to significantly enhance sensitivity to searches for new physics. SBND is an international effort, with approximately 40% of institutions from Europe, contributing to detector construction, commissioning, software development, and data analysis. Continued European involvement and leadership are essential during SBND's operations and analysis phase for both the success of SBND, SBN and its role leading up to DUNE. ",
keywords = "hep-ex, hep-ph, nucl-th",
author = "{SBND Collaboration} and R. Acciarri and L. Aliaga-Soplin and O. Alterkait and R. Alvarez-Garrote and Aldana, {D. Andrade} and C. Andreopoulos and A. Antonakis and L. Arellano and W. Badgett and S. Balasubramanian and A. Barnard and V. Basque and J. Bateman and A. Beever and E. Belchior and M. Betancourt and A. Bhat and M. Bishai and A. Blake and B. Bogart and J. Bogenschuetz and D. Brailsford and A. Brandt and S. Brickner and Brunetti, {M. B.} and A. Bueno and L. Camilleri and A. Campos and D. Caratelli and D. Carber and B. Carlson and M. Carneiro and R. Castillo and F. Cavanna and A. Chappell and H. Chen and S. Chung and R. Coackley and Crespo-Anad{\'o}n, {J. I.} and C. Cuesta and Y. Dabburi and O. Dalager and M. Dall'Olio and R. Darby and Tutto, {M. Del} and Benedetto, {V. Di} and B. McCusker and J. Nowak and P. Ratoff",
note = "Input to the European Strategy for Particle Physics 2026 Update",
year = "2025",
month = mar,
day = "31",
doi = "10.48550/arXiv.2504.00245",
language = "English",
publisher = "Arxiv",
type = "WorkingPaper",
institution = "Arxiv",

}

RIS

TY - UNPB

T1 - The Short-Baseline Near Detector at Fermilab

AU - SBND Collaboration

AU - Acciarri, R.

AU - Aliaga-Soplin, L.

AU - Alterkait, O.

AU - Alvarez-Garrote, R.

AU - Aldana, D. Andrade

AU - Andreopoulos, C.

AU - Antonakis, A.

AU - Arellano, L.

AU - Badgett, W.

AU - Balasubramanian, S.

AU - Barnard, A.

AU - Basque, V.

AU - Bateman, J.

AU - Beever, A.

AU - Belchior, E.

AU - Betancourt, M.

AU - Bhat, A.

AU - Bishai, M.

AU - Blake, A.

AU - Bogart, B.

AU - Bogenschuetz, J.

AU - Brailsford, D.

AU - Brandt, A.

AU - Brickner, S.

AU - Brunetti, M. B.

AU - Bueno, A.

AU - Camilleri, L.

AU - Campos, A.

AU - Caratelli, D.

AU - Carber, D.

AU - Carlson, B.

AU - Carneiro, M.

AU - Castillo, R.

AU - Cavanna, F.

AU - Chappell, A.

AU - Chen, H.

AU - Chung, S.

AU - Coackley, R.

AU - Crespo-Anadón, J. I.

AU - Cuesta, C.

AU - Dabburi, Y.

AU - Dalager, O.

AU - Dall'Olio, M.

AU - Darby, R.

AU - Tutto, M. Del

AU - Benedetto, V. Di

AU - McCusker, B.

AU - Nowak, J.

AU - Ratoff, P.

N1 - Input to the European Strategy for Particle Physics 2026 Update

PY - 2025/3/31

Y1 - 2025/3/31

N2 - SBND is a 112 ton liquid argon time projection chamber (LArTPC) neutrino detector located 110 meters from the Booster Neutrino Beam (BNB) target at Fermilab. Its main goals include searches for eV-scale sterile neutrinos as part of the Short-Baseline Neutrino (SBN) program, other searches for physics beyond the Standard Model, and precision studies of neutrino-argon interactions. In addition, SBND is providing a platform for LArTPC neutrino detector technology development and is an excellent training ground for the international group of scientists and engineers working towards the upcoming flagship Deep Underground Neutrino Experiment (DUNE). SBND began operation in July 2024, and started collecting stable neutrino beam data in December 2024 with an unprecedented rate of ~7,000 neutrino events per day. During its currently approved operation plans (2024-2027), SBND is expected to accumulate nearly 10 million neutrino interactions. The near detector dataset will be instrumental in testing the sterile neutrino hypothesis with unprecedented sensitivity in SBN and in probing signals of beyond the Standard Model physics. It will also be used to significantly advance our understanding of the physics of neutrino-argon interactions ahead of DUNE. After the planned accelerator restart at Fermilab (2029+), opportunities are being explored to operate SBND in antineutrino mode in order to address the scarcity of antineutrino-argon scattering data, or in a dedicated beam-dump mode to significantly enhance sensitivity to searches for new physics. SBND is an international effort, with approximately 40% of institutions from Europe, contributing to detector construction, commissioning, software development, and data analysis. Continued European involvement and leadership are essential during SBND's operations and analysis phase for both the success of SBND, SBN and its role leading up to DUNE.

AB - SBND is a 112 ton liquid argon time projection chamber (LArTPC) neutrino detector located 110 meters from the Booster Neutrino Beam (BNB) target at Fermilab. Its main goals include searches for eV-scale sterile neutrinos as part of the Short-Baseline Neutrino (SBN) program, other searches for physics beyond the Standard Model, and precision studies of neutrino-argon interactions. In addition, SBND is providing a platform for LArTPC neutrino detector technology development and is an excellent training ground for the international group of scientists and engineers working towards the upcoming flagship Deep Underground Neutrino Experiment (DUNE). SBND began operation in July 2024, and started collecting stable neutrino beam data in December 2024 with an unprecedented rate of ~7,000 neutrino events per day. During its currently approved operation plans (2024-2027), SBND is expected to accumulate nearly 10 million neutrino interactions. The near detector dataset will be instrumental in testing the sterile neutrino hypothesis with unprecedented sensitivity in SBN and in probing signals of beyond the Standard Model physics. It will also be used to significantly advance our understanding of the physics of neutrino-argon interactions ahead of DUNE. After the planned accelerator restart at Fermilab (2029+), opportunities are being explored to operate SBND in antineutrino mode in order to address the scarcity of antineutrino-argon scattering data, or in a dedicated beam-dump mode to significantly enhance sensitivity to searches for new physics. SBND is an international effort, with approximately 40% of institutions from Europe, contributing to detector construction, commissioning, software development, and data analysis. Continued European involvement and leadership are essential during SBND's operations and analysis phase for both the success of SBND, SBN and its role leading up to DUNE.

KW - hep-ex

KW - hep-ph

KW - nucl-th

U2 - 10.48550/arXiv.2504.00245

DO - 10.48550/arXiv.2504.00245

M3 - Preprint

BT - The Short-Baseline Near Detector at Fermilab

PB - Arxiv

ER -