2023
DOI: 10.1088/1361-6471/acad17
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Low-energy physics in neutrino LArTPCs

Abstract: In this paper, we review scientific opportunities and challenges related to detection and reconstruction of low-energy (less than 100 MeV) signatures in liquid argon time-projection chamber (LArTPC) neutrino detectors. LArTPC neutrino detectors designed for performing precise long-baseline oscillation measurements with GeV-scale accelerator neutrino beams also have unique sensitivity to a range of physics and astrophysics signatures via detection of event features at and below the few tens of MeV range. In add… Show more

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Cited by 9 publications
(3 citation statements)
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“…The energy spectrum predicted by the GENIE simulation for neutrons produced by neutrinos in MicroBooNE is shown in gray, with arbitrary normalization. These theoretical predictions have not been directly validated with data [26], although in the energy range of interest the total (including elastic interactions) neutron-argon cross section has been measured [27]. The neutron-argon total cross section between neutron kinetic energies of 95 and 720 MeV is fairly flat and approximately 700 mb, corresponding to a mean free path in liquid argon of ∼70 cm.…”
Section: Neutron Detectionmentioning
confidence: 98%
“…The energy spectrum predicted by the GENIE simulation for neutrons produced by neutrinos in MicroBooNE is shown in gray, with arbitrary normalization. These theoretical predictions have not been directly validated with data [26], although in the energy range of interest the total (including elastic interactions) neutron-argon cross section has been measured [27]. The neutron-argon total cross section between neutron kinetic energies of 95 and 720 MeV is fairly flat and approximately 700 mb, corresponding to a mean free path in liquid argon of ∼70 cm.…”
Section: Neutron Detectionmentioning
confidence: 98%
“…Far lower in energy, the DarkSide-50 dualphase LArTPC and DEAP single-phase scintillation detector used O(1-100 keV) ionization signatures from electron and argon nuclear recoils to place new limits on dark matter [13][14][15][16]. While sub-MeV scale reconstruction techniques and tools are mature for dark matter LAr experiments using dual-phase LArTPC or scintillation detector technology, similar tools are in an early stage of development for single-phase LAr neutrino detectors relying primarily on charge readout technologies [17][18][19].…”
Section: Introductionmentioning
confidence: 99%
“…At the end of this decade, the ≈10 kT underground single-phase LArTPCs of the DUNE experiment will be sensitive to neutrinos produced in nearby supernovae [20], and may ultimately serve as a probe of solar neutrinos [21,22], neutrinoless double-β decay [23], and dark sector particle interactions [18,24]. Other impending or proposed future efforts also plan to realize multiton-scale LAr detectors, such as the LEGEND neutrino- * microboone info@fnal.gov less double-β decay detector [25] and the DarkSide-20k and Argo dark matter detectors [26,27].…”
Section: Introductionmentioning
confidence: 99%