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  • High-performance Generic Neutrino Detection in a LArTPC near the Earth's Surface with the MicroBooNE Detector
    collaboration, MicroBooNE; Abratenko, P; Alrashed, M; R An; Anthony, J; Ashkenazi, A; Balasubramanian, S; Baller, B; Bathe-Peters, L; Berkman, S; Bolton, T; Caratelli, D; R Castillo Fernandez; Cerati, G; Conrad, J M; Convery, M; Cooper-Troendle, L; Crespo-Anadon, J I; Devitt, D; Diurba, R; Duffy, K; Dytman, S; Eberly, B; L Escudero Sanchez; Fiorentini Aguirre, G A; Fleming, B T; Foppiani, N; Furmanski, A P; Garcia-Gamez, D; Gardiner, S; G Ge; Gollapinni, S; Green, P; Greenlee, H; W Gu; Hamilton, P; Horton-Smith, G A; Hourlier, A; James, C; de Vries, J Jan; Jiang, L; Johnson, R A; Jwa, Y J; Ketchum, W; Kobilarcik, T; Kreslo, I; Lepetic, I; Y Li; Louis, W C; Mariani, C; Marsden, D; Marshall, J; Martin-Albo, J; Mason, K; Mastbaum, A; McConkey, N; Mistry, K; Mooney, M; Moore, C D; Mousseau, J; Naples, D; Papadopoulou, A; Papavassiliou, V; Paudel, A; Piasetzky, E; Qian, X; Radeka, V; Reggiani-Guzzo, M; Ren, L; Rochester, L; J Rodriguez Rondon; Rogers, H E; Russell, B; Scanavini, G; Schukraft, A; Sinclair, J; Smith, A; Snider, E L; Soldner-Rembold, S; Soleti, S R; Spentzouris, P; Spitz, J; Stancari, M; Sutton, K; Sword-Fehlberg, S; Szelc, A M; Tagg, N; Thorpe, C; Toups, M; Y -T Tsai; Tufanli, S; Uchida, M A; Viren, B; Wei, H; Williams, Z; Wolbers, S; Wospakrik, M; W Wu; Yandel, E; Yu, H W

    arXiv (Cornell University), 08/2021
    Paper, Journal Article

    Large Liquid Argon Time Projection Chambers (LArTPCs) are being increasingly adopted in neutrino oscillation experiments because of their superb imaging capabilities through the combination of both tracking and calorimetry in a fully active volume. Active LArTPC neutrino detectors at or near the Earth's surface, such as the MicroBooNE experiment, present a unique analysis challenge because of the large flux of cosmic-ray muons and the slow drift of ionization electrons. We present a novel Wire-Cell-based high-performance generic neutrino-detection technique implemented in MicroBooNE. The cosmic-ray background is reduced by a factor of 1.4\(\times10^{5}\) resulting in a 9.7\% cosmic contamination in the selected neutrino candidate events, for visible energies greater than 200~MeV, while the neutrino signal efficiency is retained at 88.4\% for \(\nu_{\mu}\) charged-current interactions in the fiducial volume in the same energy region. This significantly improved performance compared to existing reconstruction algorithms, marks a major milestone toward reaching the scientific goals of LArTPC neutrino oscillation experiments operating near the Earth's surface.

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