Measurement of space charge effects in the MicroBooNE LArTPC using cosmic muons

P. Abratenko; M. Alrashed; R. An; J. Anthony; J. Asaadi; A. Ashkenazi; S. Balasubramanian; B. Baller; C. Barnes; G. Barr; V. Basque; L. Bathe-Peters; O. Benevides Rodrigues; S. Berkman; A. Bhanderi; A. Bhat; M. Bishai; A. Blake; T. Bolton; L. Camilleri; D. Caratelli; I. Caro Terrazas; R. Castillo Fernandez; F. Cavanna; G. Cerati; Y. Chen; E. Church; D. Cianci; E.O. Cohen; J.M. Conrad; M. Convery; L. Cooper-Troendle; J.I. Crespo-Anadón; M. Del Tutto; D. Devitt; R. Diurba; L. Domine; R. Dorrill; K. Duffy; S. Dytman; B. Eberly; A. Ereditato; L. Escudero Sanchez; J.J. Evans; G.A. Fiorentini Aguirre; R.S. Fitzpatrick; B.T. Fleming; N. Foppiani; D. Franco; A.P. Furmanski; D. Garcia-Gamez; S. Gardiner; S. Gollapinni; O. Goodwin; E. Gramellini; P. Green; H. Greenlee; L. Gu; W. Gu; R. Guenette; P. Guzowski; E. Hall; P. Hamilton; O. Hen; G.A. Horton-Smith; A. Hourlier; E.-C. Huang; R. Itay; C. James; J. Jan de Vries; X. Ji; L. Jiang; J.H. Jo; R.A. Johnson; Y.-J. Jwa; N. Kamp; G. Karagiorgi; W. Ketchum; B. Kirby; M. Kirby; T. Kobilarcik; I. Kreslo; R. LaZur; I. Lepetic; K. Li; Y. Li; B.R. Littlejohn; D. Lorca; W.C. Louis; X. Luo; A. Marchionni; S. Marcocci; C. Mariani; D. Marsden; J. Marshall; J. Martin-Albo; D.A. Martinez Caicedo; K. Mason; A. Mastbaum; N. McConkey; V. Meddage; T. Mettler; K. Miller; J. Mills; K. Mistry; A. Mogan; T. Mohayai; J. Moon; M. Mooney; A.F. Moor; C.D. Moore; J. Mousseau; M. Murphy; D. Naples; A. Navrer-Agasson; R.K. Neely; P. Nienaber; J. Nowak; O. Palamara; V. Paolone; A. Papadopoulou; V. Papavassiliou; S.F. Pate; A. Paudel; Z. Pavlovic; E. Piasetzky; I.D. Ponce-Pinto; D. Porzio; S. Prince; X. Qian; J.L. Raaf; V. Radeka; A. Rafique; M. Reggiani-Guzzo; L. Ren; L. Rochester; J. Rodriguez Rondon; H.E. Rogers; M. Rosenberg; M. Ross-Lonergan; B. Russell; G. Scanavini; D.W. Schmitz; A. Schukraft; M.H. Shaevitz; R. Sharankova; J. Sinclair; A. Smith; E.L. Snider; M. Soderberg; S. Söldner-Rembold; S.R. Soleti; P. Spentzouris; J. Spitz; M. Stancari; J. St. John; T. Strauss; K. Sutton; S. Sword-Fehlberg; A.M. Szelc; N. Tagg; W. Tang; K. Terao; R.T. Thornton; C. Thorpe; M. Toups; Y.-T. Tsai; S. Tufanli; M.A. Uchida; T. Usher; W. Van De Pontseele; R.G. Van de Water; B. Viren; M. Weber; H. Wei; Z. Williams; S. Wolbers; T. Wongjirad; M. Wospakrik; W. Wu; T. Yang; G. Yarbrough; L.E. Yates; G.P. Zeller; J. Zennamo; C. Zhang

doi:10.1088/1748-0221/15/12/P12037

Journal of Instrumentation

Measurement of space charge effects in the MicroBooNE LArTPC using cosmic muons

P. Abratenko³⁵, M. Alrashed¹⁵, R. An¹⁴, J. Anthony⁴, J. Asaadi³⁴, A. Ashkenazi¹⁹, S. Balasubramanian³⁸, B. Baller¹¹, C. Barnes²⁰, G. Barr²⁴, V. Basque¹⁸, L. Bathe-Peters¹³, O. Benevides Rodrigues³¹, S. Berkman¹¹, A. Bhanderi¹⁸, A. Bhat³¹, M. Bishai², A. Blake¹⁶, T. Bolton¹⁵, L. Camilleri⁹, D. Caratelli¹¹, I. Caro Terrazas⁸, R. Castillo Fernandez¹¹, F. Cavanna¹¹, G. Cerati¹¹, Y. Chen¹, E. Church²⁵, D. Cianci⁹, E.O. Cohen³², J.M. Conrad¹⁹, M. Convery²⁹, L. Cooper-Troendle³⁸, J.I. Crespo-Anadón⁹, M. Del Tutto¹¹, D. Devitt¹⁶, R. Diurba²¹, L. Domine²⁹, R. Dorrill¹⁴, K. Duffy¹¹, S. Dytman²⁶, B. Eberly¹⁰, A. Ereditato¹, L. Escudero Sanchez⁴, J.J. Evans¹⁸, G.A. Fiorentini Aguirre³⁰, R.S. Fitzpatrick²⁰, B.T. Fleming³⁸, N. Foppiani¹³, D. Franco³⁸, A.P. Furmanski²¹, D. Garcia-Gamez¹², S. Gardiner¹¹, S. Gollapinni^17,33, O. Goodwin¹⁸, E. Gramellini¹¹, P. Green¹⁸, H. Greenlee¹¹, L. Gu³⁶, W. Gu², R. Guenette¹³, P. Guzowski¹⁸, E. Hall¹⁹, P. Hamilton³¹, O. Hen¹⁹, G.A. Horton-Smith¹⁵, A. Hourlier¹⁹, E.-C. Huang¹⁷, R. Itay²⁹, C. James¹¹, J. Jan de Vries⁴, X. Ji², L. Jiang³⁶, J.H. Jo³⁸, R.A. Johnson⁷, Y.-J. Jwa⁹, N. Kamp¹⁹, G. Karagiorgi⁹, W. Ketchum¹¹, B. Kirby², M. Kirby¹¹, T. Kobilarcik¹¹, I. Kreslo¹, R. LaZur⁸, I. Lepetic¹⁴, K. Li³⁸, Y. Li², B.R. Littlejohn¹⁴, D. Lorca¹, W.C. Louis¹⁷, X. Luo³, A. Marchionni¹¹, S. Marcocci¹¹, C. Mariani³⁶, D. Marsden¹⁸, J. Marshall³⁷, J. Martin-Albo¹³, D.A. Martinez Caicedo³⁰, K. Mason³⁵, A. Mastbaum²⁷, N. McConkey¹⁸, V. Meddage¹⁵, T. Mettler¹, K. Miller⁶, J. Mills³⁵, K. Mistry¹⁸, A. Mogan³³, T. Mohayai¹¹, J. Moon¹⁹, M. Mooney⁸, A.F. Moor⁴, C.D. Moore¹¹, J. Mousseau²⁰, M. Murphy³⁶, D. Naples²⁶, A. Navrer-Agasson¹⁸, R.K. Neely¹⁵, P. Nienaber²⁸, J. Nowak¹⁶, O. Palamara¹¹, V. Paolone²⁶, A. Papadopoulou¹⁹, V. Papavassiliou²², S.F. Pate²², A. Paudel¹⁵, Z. Pavlovic¹¹, E. Piasetzky³², I.D. Ponce-Pinto⁹, D. Porzio¹⁸, S. Prince¹³, X. Qian², J.L. Raaf¹¹, V. Radeka², A. Rafique¹⁵, M. Reggiani-Guzzo¹⁸, L. Ren²², L. Rochester²⁹, J. Rodriguez Rondon³⁰, H.E. Rogers⁵, M. Rosenberg²⁶, M. Ross-Lonergan⁹, B. Russell³⁸, G. Scanavini³⁸, D.W. Schmitz⁶, A. Schukraft¹¹, M.H. Shaevitz⁹, R. Sharankova³⁵, J. Sinclair¹, A. Smith⁴, E.L. Snider¹¹, M. Soderberg³¹, S. Söldner-Rembold¹⁸, S.R. Soleti^13,24, P. Spentzouris¹¹, J. Spitz²⁰, M. Stancari¹¹, J. St. John¹¹, T. Strauss¹¹, K. Sutton⁹, S. Sword-Fehlberg²², A.M. Szelc¹⁸, N. Tagg²³, W. Tang³³, K. Terao²⁹, R.T. Thornton¹⁷, C. Thorpe¹⁶, M. Toups¹¹, Y.-T. Tsai²⁹, S. Tufanli³⁸, M.A. Uchida⁴, T. Usher²⁹, W. Van De Pontseele^13,24, R.G. Van de Water¹⁷, B. Viren², M. Weber¹, H. Wei², Z. Williams³⁴, S. Wolbers¹¹, T. Wongjirad³⁵, M. Wospakrik¹¹, W. Wu¹¹, T. Yang¹¹, G. Yarbrough³³, L.E. Yates¹⁹, G.P. Zeller¹¹, J. Zennamo¹¹ and C. Zhang²

Published 31 December 2020 • © 2020 The Author(s). Published by IOP Publishing Ltd on behalf of Sissa Medialab
Journal of Instrumentation, Volume 15, December 2020 Citation P. Abratenko et al 2020 JINST 15 P12037 DOI 10.1088/1748-0221/15/12/P12037

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¹ Universität Bern, Bern CH-3012, Switzerland

² Brookhaven National Laboratory (BNL), Upton, NY, 11973, U.S.A.

³ University of California, Santa Barbara, CA, 93106, U.S.A.

⁴ University of Cambridge, Cambridge CB3 0HE, United Kingdom

⁵ St. Catherine University, Saint Paul, MN 55105, U.S.A.

⁶ University of Chicago, Chicago, IL, 60637, U.S.A.

⁷ University of Cincinnati, Cincinnati, OH, 45221, U.S.A.

⁸ Colorado State University, Fort Collins, CO, 80523, U.S.A.

⁹ Columbia University, New York, NY, 10027, U.S.A.

¹⁰ Davidson College, Davidson, NC, 28035, U.S.A.

¹¹ Fermi National Accelerator Laboratory (FNAL), Batavia, IL 60510, U.S.A.

¹² Universidad de Granada, E-18071, Granada, Spain

¹³ Harvard University, Cambridge, MA 02138, U.S.A.

¹⁴ Illinois Institute of Technology (IIT), Chicago, IL 60616, U.S.A.

¹⁵ Kansas State University (KSU), Manhattan, KS, 66506, U.S.A.

¹⁶ Lancaster University, Lancaster LA1 4YW, United Kingdom

¹⁷ Los Alamos National Laboratory (LANL), Los Alamos, NM, 87545, U.S.A.

¹⁸ The University of Manchester, Manchester M13 9PL, United Kingdom

¹⁹ Massachusetts Institute of Technology (MIT), Cambridge, MA, 02139, U.S.A.

²⁰ University of Michigan, Ann Arbor, MI, 48109, U.S.A.

²¹ University of Minnesota, Minneapolis, Mn, 55455, U.S.A.

²² New Mexico State University (NMSU), Las Cruces, NM, 88003, U.S.A.

²³ Otterbein University, Westerville, OH, 43081, U.S.A.

²⁴ University of Oxford, Oxford OX1 3RH, United Kingdom

²⁵ Pacific Northwest National Laboratory (PNNL), Richland, WA, 99352, U.S.A.

²⁶ University of Pittsburgh, Pittsburgh, PA, 15260, U.S.A.

²⁷ Rutgers University, Piscataway, NJ, 08854, U.S.A., PA

²⁸ Saint Mary's University of Minnesota, Winona, MN, 55987, U.S.A.

²⁹ SLAC National Accelerator Laboratory, Menlo Park, CA, 94025, U.S.A.

³⁰ South Dakota School of Mines and Technology (SDSMT), Rapid City, SD, 57701, U.S.A.

³¹ Syracuse University, Syracuse, NY, 13244, U.S.A.

³² Tel Aviv University, Tel Aviv, 69978, Israel

³³ University of Tennessee, Knoxville, TN, 37996, U.S.A.

³⁴ University of Texas, Arlington, TX, 76019, U.S.A.

³⁵ Tufts University, Medford, MA, 02155, U.S.A.

³⁶ Center for Neutrino Physics, Virginia Tech, Blacksburg, VA, 24061, U.S.A.

³⁷ University of Warwick, Coventry CV4 7AL, United Kingdom

³⁸ Wright Laboratory, Department of Physics, Yale University, New Haven, CT, 06520, U.S.A.

Dates

Received 6 September 2020
Accepted 5 November 2020
Published 31 December 2020

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Abstract

Large liquid argon time projection chambers (LArTPCs), especially those operating near the surface, are susceptible to space charge effects. In the context of LArTPCs, the space charge effect is the build-up of slow-moving positive ions in the detector primarily due to ionization from cosmic rays, leading to a distortion of the electric field within the detector. This effect leads to a displacement in the reconstructed position of signal ionization electrons in LArTPC detectors ("spatial distortions"), as well as to variations in the amount of electron-ion recombination experienced by ionization throughout the volume of the TPC. We present techniques that can be used to measure and correct for space charge effects in large LArTPCs by making use of cosmic muons, including the use of track pairs to unambiguously pin down spatial distortions in three dimensions. The performance of these calibration techniques are studied using both Monte Carlo simulation and MicroBooNE data, utilizing a UV laser system as a means to estimate the systematic bias associated with the calibration methodology.

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Measurement of space charge effects in the MicroBooNE LArTPC using cosmic muons

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