Abratenko, P.An, R.Anthony, J.Arellano, L.Asaadi, J.Ashkenazi, A.Balasubramanian, S.Baller, B.Barnes, C.Barr, G.Basque, V.Bathe-Peters, L.Benevides Rodrigues, O.Berkman, S.Bhanderi, A.Bhat, A.Bishai, M.Blake, A.Bolton, T.Book, J. Y.Camilleri, L.Caratelli, D.Caro Terrazas, I.Cavanna, F.Cerati, G.Chen, Y.Cianci, D.Conrad, J. M.Convery, M.Cooper-Troendle, L.Crespo-Anadón, J. I.Del Tutto, M.Dennis, S. R.Detje, P.Devitt, A.Diurba, R.Dorrill, R.Duffy, K.Dytman, S.Eberly, B.Ereditato, A.Evans, J. J.Fine, R.Fiorentini Aguirre, G. A.Fitzpatrick, R. S.Fleming, B. T.Foppiani, N.Franco, D.Furmanski, A. P.Garcia-Gamez, D.Gardiner, S.Ge, G.Gollapinni, S.Goodwin, O.Gramellini, E.Green, P.Greenlee, H.Gu, W.Guenette, R.Guzowski, P.Hagaman, L.Hen, O.Hilgenberg, C.Horton-Smith, G. A.Hourlier, A.Itay, R.James, C.Ji, X.Jiang, L.Jo, J. H.Johnson, R. A.Jwa, Y.-J.Kalra, D.Kamp, N.Kaneshige, N.Karagiorgi, G.Ketchum, W.Kirby, M.Kobilarcik, T.Kreslo, I.Lepetic, I.Li, K.Li, Y.Lin, K.Littlejohn, B. R.Louis, W. C.Luo, X.Manivannan, K.Mariani, CamilloMarsden, D.Marshall, J.Caicedo, D. A. M.Mason, K.Mastbaum, A.McConkey, N.Meddage, V.Mettler, T.Miller, K.Mills, J.Mistry, K.Mogan, A.Mohayai, T.Moon, J.Mooney, M.Moor, A. F.Moore, C. D.Mora Lepin, L.Mousseau, J.Murphy, Matthew DouglasNaples, D.Navrer-Agasson, A.Nebot-Guinot, M.Neely, R. K.Newmark, D. A.Nowak, J.Nunes, M.Palamara, O.Paolone, V.Papadopoulou, A.Papavassiliou, V.Pate, S. F.Patel, N.Paudel, A.Pavlovic, Z.Piasetzky, E.Ponce-Pinto, I. D.Prince, S.Qian, X.Raaf, J. L.Radeka, V.Rafique, A.Reggiani-Guzzo, M.Ren, L.Rice, L. C. J.Rochester, L.Rodriguez Rondon, J.Rosenberg, M.Ross-Lonergan, M.Scanavini, G.Schmitz, D. W.Schukraft, A.Seligman, W.Shaevitz, M. H.Sharankova, R.Shi, J.Sinclair, J.Smith, A.Snider, E. L.Soderberg, M.Söldner-Rembold, S.Spentzouris, P.Spitz, J.Stancari, M.St. John, J.Strauss, T.Sutton, K.Sword-Fehlberg, S.Szelc, A. M.Tang, W.Terao, K.Thorpe, C.Totani, D.Toups, M.Tsai, Y.-T.Uchida, M. A.Usher, T.Van De Pontseele, W.Viren, B.Weber, M.Wei, H.Williams, Z.Wolbers, S.Wongjirad, T.Wospakrik, M.Wresilo, K.Wright, N.Wu, W.Yandel, E.Yang, T.Yarbrough, G.Yates, L. E.Yu, H. W.Zeller, G. P.Zennamo, J.Zhang, C.2022-05-232022-05-232022-05-17The European Physical Journal C. 2022 May 17;82(5):454http://hdl.handle.net/10919/110132Primary challenges for current and future precision neutrino experiments using liquid argon time projection chambers (LArTPCs) include understanding detector effects and quantifying the associated systematic uncertainties. This paper presents a novel technique for assessing and propagating LArTPC detector-related systematic uncertainties. The technique makes modifications to simulation waveforms based on a parameterization of observed differences in ionization signals from the TPC between data and simulation, while remaining insensitive to the details of the detector model. The modifications are then used to quantify the systematic differences in low- and high-level reconstructed quantities. This approach could be applied to future LArTPC detectors, such as those used in SBN and DUNE.application/pdfenCreative Commons Attribution 4.0 InternationalArticle - Refereed2022-05-22The Author(s)https://doi.org/10.1140/epjc/s10052-022-10270-8