Cosmic Ray Background Removal With Deep Neural Networks in SBND

R Acciarri,C Adams,C Andreopoulos,J Asaadi, M Babicz,C Backhouse,W Badgett,L Bagby, D Barker, V Basque,M C Q Bazetto,M Betancourt, A Bhanderi,A Bhat,C Bonifazi,D Brailsford, A G Brandt, T Brooks,M F Carneiro,Y Chen,H Chen,G Chisnall,J I Crespo-Anadón,E Cristaldo,C Cuesta,I L de Icaza Astiz,A De Roeck,G de Sá Pereira,M Del Tutto,V Di Benedetto, A Ereditato,J J Evans,A C Ezeribe, R S Fitzpatrick,B T Fleming,W Foreman,D Franco, I Furic,A P Furmanski,S Gao,D Garcia-Gamez, H Frandini,G Ge, I Gil-Botella,S Gollapinni,O Goodwin,P Green,W C Griffith, R Guenette,P Guzowski, T Ham, J Henzerling, A Holin, B Howard,R S Jones,D Kalra,G Karagiorgi, L Kashur,W Ketchum,M J Kim,V A Kudryavtsev,J Larkin, H Lay, I Lepetic,B R Littlejohn,W C Louis,A A Machado,M Malek,D Mardsen,C Mariani,F Marinho, A Mastbaum,K Mavrokoridis, N McConkey,V Meddage, D P Méndez,T Mettler,K Mistry, A Mogan,J Molina,M Mooney, L Mora,C A Moura,J Mousseau, A Navrer-Agasson, F J Nicolas-Arnaldos,J A Nowak,O Palamara,V Pandey, J Pater,L Paulucci,V L Pimentel,F Psihas,G Putnam,X Qian, E Raguzin, H Ray, M Reggiani-Guzzo,D Rivera,M Roda, M Ross-Lonergan,G Scanavini,A Scarff, D W Schmitz, A Schukraft,E Segreto,M Soares Nunes,M Soderberg, S Söldner-Rembold,J Spitz, N J C Spooner, M Stancari,G V Stenico,A Szelc,W Tang,J Tena Vidal, D Torretta,M Toups,C Touramanis,M Tripathi,S Tufanli, E Tyley,G A Valdiviesso,E Worcester, M Worcester, G Yarbrough,J Yu,B Zamorano, J Zennamo, A Zglam

FRONTIERS IN ARTIFICIAL INTELLIGENCE（2021）

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摘要

In liquid argon time projection chambers exposed to neutrino beams and running on or near surface levels, cosmic muons, and other cosmic particles are incident on the detectors while a single neutrino-induced event is being recorded. In practice, this means that data fromsurface liquid argon time projection chambers will be dominated by cosmic particles, both as a source of event triggers and as the majority of the particle count in true neutrino-triggered events. In this work, we demonstrate a novel application of deep learning techniques to remove these background particles by applying deep learning on full detector images from the SBND detector, the near detector in the Fermilab Short-Baseline Neutrino Program. We use this technique to identify, on a pixel-by-pixel level, whether recorded activity originated from cosmic particles or neutrino interactions.

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关键词

deep learning, neutrino physics, SBN program, SBND, UNet, liquid Ar detectors

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