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Neutron detection and application with a novel 3D-projection scintillator tracker in the future long-baseline neutrino oscillation experiments
Neutrino oscillation experiments require a precise measurement of the neutrino energy. However, the kinematic detection of the final-state neutron in the neutrino interaction is missing in current neutrino oscillation experiments. The missing neutron kinematic detection results in a smaller detected...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2022
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1103/PhysRevD.107.032012 http://cds.cern.ch/record/2853392 |
| _version_ | 1780977207414358016 |
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| author | Gwon, S. Granger, P. Yang, G. Bolognesi, S. Cai, T. Danilov, M. Delbart, A. De Roeck, A. Dolan, S. Eurin, G. Razakamiandra, R.F. Fedotov, S. Aguirre, G. Fiorentini Flight, R. Gran, R. Ha, C. Jung, C.K. Jung, K.Y. Kettell, S. Khabibullin, M. Khotjantsev, A. Kordosky, M. Kudenko, Y. Kutter, T. Maneira, J. Manly, S. Martinez Caicedo, D.A. Mauger, C. McFarland, K. McGrew, C. Mefodev, A. Mineev, O. Naples, D. Olivier, A. Paolone, V. Prasad, S. Riccio, C. Rodriguez Rondon, J. Sgalaberna, D. Sitraka, A. Siyeon, K. Skrobova, N. Su, H. Suvorov, S. Teklu, A. Tzanov, M. Valencia, E. Wood, K. Worcester, E. Yershov, N. |
| author_facet | Gwon, S. Granger, P. Yang, G. Bolognesi, S. Cai, T. Danilov, M. Delbart, A. De Roeck, A. Dolan, S. Eurin, G. Razakamiandra, R.F. Fedotov, S. Aguirre, G. Fiorentini Flight, R. Gran, R. Ha, C. Jung, C.K. Jung, K.Y. Kettell, S. Khabibullin, M. Khotjantsev, A. Kordosky, M. Kudenko, Y. Kutter, T. Maneira, J. Manly, S. Martinez Caicedo, D.A. Mauger, C. McFarland, K. McGrew, C. Mefodev, A. Mineev, O. Naples, D. Olivier, A. Paolone, V. Prasad, S. Riccio, C. Rodriguez Rondon, J. Sgalaberna, D. Sitraka, A. Siyeon, K. Skrobova, N. Su, H. Suvorov, S. Teklu, A. Tzanov, M. Valencia, E. Wood, K. Worcester, E. Yershov, N. |
| author_sort | Gwon, S. |
| collection | CERN |
| description | Neutrino oscillation experiments require a precise measurement of the neutrino energy. However, the kinematic detection of the final-state neutron in the neutrino interaction is missing in current neutrino oscillation experiments. The missing neutron kinematic detection results in a smaller detected neutrino energy than the true neutrino energy. A novel 3D-projection scintillator tracker, which consists of roughly ten million active cubes covered with an optical reflector, is capable of measuring the neutron kinetic energy and direction on an event-by-event basis using the time-of-flight technique thanks to the fast timing, fine granularity, and high light yield. The <math display="inline"><msub><mover accent="true"><mi>ν</mi><mo stretchy="false">¯</mo></mover><mi>μ</mi></msub></math> interactions tend to produce neutrons in the final state. By measuring the neutron kinetic energy, the <math display="inline"><msub><mover accent="true"><mi>ν</mi><mo stretchy="false">¯</mo></mover><mi>μ</mi></msub></math> energy can be reconstructed better, allowing a tighter incoming neutrino flux constraint. This article shows the detector’s ability to reconstruct neutron kinetic energy and the <math display="inline"><msub><mover accent="true"><mi>ν</mi><mo stretchy="false">¯</mo></mover><mi>μ</mi></msub></math> flux constraint achieved by selecting the charged-current interactions without mesons or protons in the final state. |
| id | cern-2853392 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2022 |
| record_format | invenio |
| spelling | cern-28533922023-03-28T09:46:43Zdoi:10.1103/PhysRevD.107.032012doi:10.1103/PhysRevD.107.032012http://cds.cern.ch/record/2853392engGwon, S.Granger, P.Yang, G.Bolognesi, S.Cai, T.Danilov, M.Delbart, A.De Roeck, A.Dolan, S.Eurin, G.Razakamiandra, R.F.Fedotov, S.Aguirre, G. FiorentiniFlight, R.Gran, R.Ha, C.Jung, C.K.Jung, K.Y.Kettell, S.Khabibullin, M.Khotjantsev, A.Kordosky, M.Kudenko, Y.Kutter, T.Maneira, J.Manly, S.Martinez Caicedo, D.A.Mauger, C.McFarland, K.McGrew, C.Mefodev, A.Mineev, O.Naples, D.Olivier, A.Paolone, V.Prasad, S.Riccio, C.Rodriguez Rondon, J.Sgalaberna, D.Sitraka, A.Siyeon, K.Skrobova, N.Su, H.Suvorov, S.Teklu, A.Tzanov, M.Valencia, E.Wood, K.Worcester, E.Yershov, N.Neutron detection and application with a novel 3D-projection scintillator tracker in the future long-baseline neutrino oscillation experimentsphysics.ins-detDetectors and Experimental Techniqueshep-phParticle Physics - Phenomenologyhep-exParticle Physics - ExperimentNeutrino oscillation experiments require a precise measurement of the neutrino energy. However, the kinematic detection of the final-state neutron in the neutrino interaction is missing in current neutrino oscillation experiments. The missing neutron kinematic detection results in a smaller detected neutrino energy than the true neutrino energy. A novel 3D-projection scintillator tracker, which consists of roughly ten million active cubes covered with an optical reflector, is capable of measuring the neutron kinetic energy and direction on an event-by-event basis using the time-of-flight technique thanks to the fast timing, fine granularity, and high light yield. The <math display="inline"><msub><mover accent="true"><mi>ν</mi><mo stretchy="false">¯</mo></mover><mi>μ</mi></msub></math> interactions tend to produce neutrons in the final state. By measuring the neutron kinetic energy, the <math display="inline"><msub><mover accent="true"><mi>ν</mi><mo stretchy="false">¯</mo></mover><mi>μ</mi></msub></math> energy can be reconstructed better, allowing a tighter incoming neutrino flux constraint. This article shows the detector’s ability to reconstruct neutron kinetic energy and the <math display="inline"><msub><mover accent="true"><mi>ν</mi><mo stretchy="false">¯</mo></mover><mi>μ</mi></msub></math> flux constraint achieved by selecting the charged-current interactions without mesons or protons in the final state.Neutrino oscillation experiments require a precise measurement of the neutrino energy. However, the kinematic detection of the final-state neutron in the neutrino interaction is missing in current neutrino oscillation experiments. The missing neutron kinematic detection results in a feed-down of the detected neutrino energy compared to the true neutrino energy. A novel 3D\textcolor{black}{-}projection scintillator tracker, which consists of roughly ten million active cubes covered with an optical reflector, is capable of measuring the neutron kinetic energy and direction on an event-by-event basis using the time-of-flight technique thanks to the fast timing, fine granularity, and high light yield. The $\bar{\nu}_{\mu}$ interactions tend to produce neutrons in the final state. By inferring the neutron kinetic energy, the $\bar{\nu}_{\mu}$ energy can be reconstructed better, allowing a tighter incoming neutrino flux constraint. This paper shows the detector's ability to reconstruct neutron kinetic energy and the $\bar{\nu}_{\mu}$ flux constraint achieved by selecting the charged-current interactions without mesons or protons in the final state.arXiv:2211.17037oai:cds.cern.ch:28533922022-11-30 |
| spellingShingle | physics.ins-det Detectors and Experimental Techniques hep-ph Particle Physics - Phenomenology hep-ex Particle Physics - Experiment Gwon, S. Granger, P. Yang, G. Bolognesi, S. Cai, T. Danilov, M. Delbart, A. De Roeck, A. Dolan, S. Eurin, G. Razakamiandra, R.F. Fedotov, S. Aguirre, G. Fiorentini Flight, R. Gran, R. Ha, C. Jung, C.K. Jung, K.Y. Kettell, S. Khabibullin, M. Khotjantsev, A. Kordosky, M. Kudenko, Y. Kutter, T. Maneira, J. Manly, S. Martinez Caicedo, D.A. Mauger, C. McFarland, K. McGrew, C. Mefodev, A. Mineev, O. Naples, D. Olivier, A. Paolone, V. Prasad, S. Riccio, C. Rodriguez Rondon, J. Sgalaberna, D. Sitraka, A. Siyeon, K. Skrobova, N. Su, H. Suvorov, S. Teklu, A. Tzanov, M. Valencia, E. Wood, K. Worcester, E. Yershov, N. Neutron detection and application with a novel 3D-projection scintillator tracker in the future long-baseline neutrino oscillation experiments |
| title | Neutron detection and application with a novel 3D-projection scintillator tracker in the future long-baseline neutrino oscillation experiments |
| title_full | Neutron detection and application with a novel 3D-projection scintillator tracker in the future long-baseline neutrino oscillation experiments |
| title_fullStr | Neutron detection and application with a novel 3D-projection scintillator tracker in the future long-baseline neutrino oscillation experiments |
| title_full_unstemmed | Neutron detection and application with a novel 3D-projection scintillator tracker in the future long-baseline neutrino oscillation experiments |
| title_short | Neutron detection and application with a novel 3D-projection scintillator tracker in the future long-baseline neutrino oscillation experiments |
| title_sort | neutron detection and application with a novel 3d-projection scintillator tracker in the future long-baseline neutrino oscillation experiments |
| topic | physics.ins-det Detectors and Experimental Techniques hep-ph Particle Physics - Phenomenology hep-ex Particle Physics - Experiment |
| url | https://dx.doi.org/10.1103/PhysRevD.107.032012 https://dx.doi.org/10.1103/PhysRevD.107.032012 http://cds.cern.ch/record/2853392 |
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