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The Deep Underground Neutrino Experiment (DUNE) is a next-generation neutrino experiment with a rich physics program that includes searches for the hypothetical phenomenon of proton decay. Utilizing liquid-argon time-projection chamber technology, DUNE is expected to achieve world-leading sensitivity in the proton decay channels that involve charged kaons in their final states. The first DUNE demonstrator, ProtoDUNE Single-Phase, was a 0.77 kt detector that operated from 2018 to 2020 at the CERN Neutrino Platform, exposed to a mixed hadron and electron test-beam with momenta ranging from 0.3 to 7  GeV/c. We present a selection of low-energy kaons among the secondary particles produced in hadronic reactions, using data from the 6 and 7  GeV/c beam runs. The selection efficiency is 1% and the sample purity 92%. The initial energies of the selected kaon candidates encompass the expected energy range of kaons originating from proton decay events in DUNE (below ∼200  MeV). In addition, we demonstrate the capability of this detector technology to discriminate between kaons and other particles such as protons and muons, and provide a comprehensive description of their energy loss in liquid argon, which shows good agreement with the simulation. These results pave the way for future proton decay searches at DUNE.

Identification of low-energy kaons in the ProtoDUNE-SP detector / Abbaslu, S., Abd Alrahman, F., Abed Abud, A., Acciarri, R., Accorsi, L. p., Acero, M. a., Adames, M. r., Adamov, G., Adamowski, M., Adriano, C., Akbar, F., Alemanno, F., Alex, N. s., Allison, K., Alrashed, M., Alton, A., Alvarez, R., Alves, T., Aman, A., Amar, H., et al.. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - 113:5(2026). [10.1103/q21l-pl7s]

Identification of low-energy kaons in the ProtoDUNE-SP detector

Bassani, M.;Cova, P.;Delmonte, N.;Santoro, D.;
2026-01-01

Abstract

The Deep Underground Neutrino Experiment (DUNE) is a next-generation neutrino experiment with a rich physics program that includes searches for the hypothetical phenomenon of proton decay. Utilizing liquid-argon time-projection chamber technology, DUNE is expected to achieve world-leading sensitivity in the proton decay channels that involve charged kaons in their final states. The first DUNE demonstrator, ProtoDUNE Single-Phase, was a 0.77 kt detector that operated from 2018 to 2020 at the CERN Neutrino Platform, exposed to a mixed hadron and electron test-beam with momenta ranging from 0.3 to 7  GeV/c. We present a selection of low-energy kaons among the secondary particles produced in hadronic reactions, using data from the 6 and 7  GeV/c beam runs. The selection efficiency is 1% and the sample purity 92%. The initial energies of the selected kaon candidates encompass the expected energy range of kaons originating from proton decay events in DUNE (below ∼200  MeV). In addition, we demonstrate the capability of this detector technology to discriminate between kaons and other particles such as protons and muons, and provide a comprehensive description of their energy loss in liquid argon, which shows good agreement with the simulation. These results pave the way for future proton decay searches at DUNE.
2026
Identification of low-energy kaons in the ProtoDUNE-SP detector / Abbaslu, S., Abd Alrahman, F., Abed Abud, A., Acciarri, R., Accorsi, L. p., Acero, M. a., Adames, M. r., Adamov, G., Adamowski, M., Adriano, C., Akbar, F., Alemanno, F., Alex, N. s., Allison, K., Alrashed, M., Alton, A., Alvarez, R., Alves, T., Aman, A., Amar, H., et al.. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - 113:5(2026). [10.1103/q21l-pl7s]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/3050233
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