Physics prospects with MeV neutrino-argon charged current interactions using enhanced photon detection in future LArTPCs

Wei Shi; Xuyang Ning; Daniel Pershey; Franciole Marinho; Anjarazafy Fleuri; Ciro Riccio; Jay Hyun Jo; Chao Zhang; Flavio Cavanna

doi:10.1103/f3t7-5vmd

Physics prospects with MeV neutrino-argon charged current interactions using enhanced photon detection in future LArTPCs

Wei Shi
, Xuyang Ning
, Daniel Pershey
, Franciole Marinho
, Anjarazafy Fleuri
, Ciro Riccio
, Jay Hyun Jo
, Chao Zhang
, Flavio Cavanna

Physics and Astronomy

Stony Brook University
Brookhaven National Laboratory
Florida State University
Instituto Tecnológico de Aeronáutica
Université d'Antananarivo
Fermi National Accelerator Laboratory

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We investigate MeV-scale electron neutrino charged current interactions in a liquid argon time projection chamber (LArTPC) equipped with an enhanced photon detection system. Using simulations of deposited energy in charge and light calorimetry, we explore the potential for dual calorimetric neutrino energy reconstruction. We found energy reconstruction based on light-only calorimetry has a better resolution than combined charge and light calorimetry when hadrons are produced in these events. Meanwhile, enhanced light detection offers improved nanosecond timing resolution and broad optical coverage, enabling neutron tagging and identification of delayed low-energy gamma emissions. These advancements open new avenues in low-energy neutrino physics in next-generation LArTPCs.

Original language	English
Article number	012019
Pages (from-to)	1-18
Number of pages	18
Journal	Physical Review D
Volume	112
Issue number	1
DOIs	https://doi.org/10.1103/f3t7-5vmd
State	Published - Jul 22 2025

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title = "Physics prospects with MeV neutrino-argon charged current interactions using enhanced photon detection in future LArTPCs",

abstract = "We investigate MeV-scale electron neutrino charged current interactions in a liquid argon time projection chamber (LArTPC) equipped with an enhanced photon detection system. Using simulations of deposited energy in charge and light calorimetry, we explore the potential for dual calorimetric neutrino energy reconstruction. We found energy reconstruction based on light-only calorimetry has a better resolution than combined charge and light calorimetry when hadrons are produced in these events. Meanwhile, enhanced light detection offers improved nanosecond timing resolution and broad optical coverage, enabling neutron tagging and identification of delayed low-energy gamma emissions. These advancements open new avenues in low-energy neutrino physics in next-generation LArTPCs.",

author = "Wei Shi and Xuyang Ning and Daniel Pershey and Franciole Marinho and Anjarazafy Fleuri and Ciro Riccio and Jo, \{Jay Hyun\} and Chao Zhang and Flavio Cavanna",

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AU - Shi, Wei

AU - Ning, Xuyang

AU - Pershey, Daniel

AU - Marinho, Franciole

AU - Fleuri, Anjarazafy

AU - Riccio, Ciro

AU - Jo, Jay Hyun

AU - Zhang, Chao

AU - Cavanna, Flavio

PY - 2025/7/22

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N2 - We investigate MeV-scale electron neutrino charged current interactions in a liquid argon time projection chamber (LArTPC) equipped with an enhanced photon detection system. Using simulations of deposited energy in charge and light calorimetry, we explore the potential for dual calorimetric neutrino energy reconstruction. We found energy reconstruction based on light-only calorimetry has a better resolution than combined charge and light calorimetry when hadrons are produced in these events. Meanwhile, enhanced light detection offers improved nanosecond timing resolution and broad optical coverage, enabling neutron tagging and identification of delayed low-energy gamma emissions. These advancements open new avenues in low-energy neutrino physics in next-generation LArTPCs.

AB - We investigate MeV-scale electron neutrino charged current interactions in a liquid argon time projection chamber (LArTPC) equipped with an enhanced photon detection system. Using simulations of deposited energy in charge and light calorimetry, we explore the potential for dual calorimetric neutrino energy reconstruction. We found energy reconstruction based on light-only calorimetry has a better resolution than combined charge and light calorimetry when hadrons are produced in these events. Meanwhile, enhanced light detection offers improved nanosecond timing resolution and broad optical coverage, enabling neutron tagging and identification of delayed low-energy gamma emissions. These advancements open new avenues in low-energy neutrino physics in next-generation LArTPCs.

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Physics prospects with MeV neutrino-argon charged current interactions using enhanced photon detection in future LArTPCs

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