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Abratenko, P.; Anthony, J.; Asaadi, J.; Ashkenazi, A.; Balasubramanian, S.; Barnes, C.; Barr, G.; Basque, V.; Benevides Rodrigues, O.; Bishai, M.; Camilleri, L.; Caratelli, D.; Cavanna, F.; Cianci, D.; Conrad, J.M.; Convery, M.; Del Tutto, M.; Dennis, S.R.; Detje, P.; Devitt, A.; Dorrill, R.; Dytman, S.; Eberly, B.; Evans, J.J.; Fine, R.; Fitzpatrick, R.S.; Franco, D.; Gardiner, S.; Ge, G.; Green, P.; Greenlee, H.; Guenette, R.; Hagaman, L.; Hilgenberg, C.; Horton-Smith, G.A.; Hourlier, A.; Itay, R.; Jo, J.H.; Johnson, R.A.; Kalra, D.; Kaneshige, N.; Karagiorgi, G.; LaZur, R.; Lepetic, I.; Li, Y.; Lin, K.; Littlejohn, B.R.; Louis, W.C.; Luo, X.; Manivannan, K.; Marsden, D.; Marshall, J.; Martinez Caicedo, D.A.; Mason, K.; McConkey, N.; Meddage, V.; Mills, J.; Mistry, K.; Moor, A.F.; Mousseau, J.; Nebot-Guinot, M.; Neely, R.K.; Newmark, D.A.; Nunes, M.; Palamara, O.; Paolone, V.; Papavassiliou, V.; Pate, S.F.; Paudel, A.; Piasetzky, E.; Prince, S.; Raaf, J.L.; Rafique, A.; Rodriguez Rondon, J.; Rosenberg, M.; Ross-Lonergan, M.; Schukraft, A.; Sinclair, J.; Snider, E.L.; Soderberg, M.; Spentzouris, P.; Stancari, M.; St, J.; Sutton, K.; Szelc, A.M.; Tsai, Y.-T.; Uchida, M.A.; Van De Pontseele, W.; Viren, B.; Wei, H.; Williams, Z.; Wolbers, S.; Wongjirad, T.; Wospakrik, M.; Wright, N.; Wu, W.; Yandel, E.; Yarbrough, G.; Zennamo, J.; Zhang, C.
Journal of instrumentation, 12/2021, Letnik: 16, Številka: 12Journal Article
This article presents the reconstruction of the electromagnetic activity from electrons and photons (showers) used in the MicroBooNE deep learning-based low energy electron search. The reconstruction algorithm uses a combination of traditional and deep learning-based techniques to estimate shower energies. We validate these predictions using two νμ-sourced data samples: charged/neutral current interactions with final state neutral pions and charged current interactions in which the muon stops and decays within the detector producing a Michel electron. Both the neutral pion sample and Michel electron sample demonstrate agreement between data and simulation. Further, the absolute shower energy scale is shown to be consistent with the relevant physical constant of each sample: the neutral pion mass peak and the Michel energy cutoff.
