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Observation of Radon Mitigation in MicroBooNE by a Liquid Argon Filtration System

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arxiv 2203.10147 v2 pith:IH4YUBMX submitted 2022-03-18 physics.ins-det hep-ex

Observation of Radon Mitigation in MicroBooNE by a Liquid Argon Filtration System

MicroBooNE collaboration: P. Abratenko , J. Anthony , L. Arellano , J. Asaadi , A. Ashkenazi , S. Balasubramanian , B. Baller , C. Barnes
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G. Barr J. Barrow V. Basque L. Bathe-Peters O. Benevides Rodrigues S. Berkman A. Bhanderi A. Bhat M. Bhattacharya M. Bishai A. Blake T. Bolton J.Y. Book L. Camilleri D. Caratelli I. Caro Terrazas F. Cavanna G. Cerati Y. Chen D. Cianci J.M. Conrad M. Convery L. Cooper-Troendle J.I. Crespo-Anadon M. Del Tutto S.R. Dennis P. Detje A. Devitt R. Diurba R. Dorrill K. Duffy S. Dytman B. Eberly A. Ereditato J.J. Evans R. Fine G.A. Fiorentini Aguirre R.S. Fitzpatrick B.T. Fleming N. Foppiani D. Franco A.P. Furmanski D. Garcia-Gamez S. Gardiner G. Ge S. Gollapinni O. Goodwin E. Gramellini P. Green H. Greenlee W. Gu R. Guenette P. Guzowski L. Hagaman O. Hen C. Hilgenberg G.A. Horton-Smith A. Hourlier R. Itay C. James X. Ji L. Jiang J.H. Jo C. Joe R.A. Johnson Y.J. Jwa D. Kalra N. Kamp N. Kaneshige G. Karagiorgi W. Ketchum M. Kirby T. Kobilarcik I. Kreslo I. Lepetic J.-Y. Li K. Li Y. Li K. Lin B.R. Littlejohn W.C. Louis X. Luo K. Manivannan C. Mariani D. Marsden J. Marshall D.A. Martinez Caicedo K. Mason A. Mastbaum N. McConkey V. Meddage T. Mettler K. Miller J. Mills K. Mistry T. Mohayai A. Mogan M. Mooney A.F. Moor C.D. Moore L. Mora Lepin J. Mousseau S. Mulleria Babu D. Naples A. Navrer-Agasson N. Nayak M. Nebot-Guinot R.K. Neely D.A. Newmark J. Nowak M. Nunes O. Palamara V. Paolone A. Papadopoulou V. Papavassiliou H.B. Parkinson S.F. Pate N. Patel A. Paudel Z. Pavlovic E. Piasetzky I. Ponce-Pinto S. Prince X. Qian J.L. Raaf V. Radeka A. Rafique M. Reggiani-Guzzo L. Ren L.C.J. Rice L. Rochester J. Rodriguez Rondon M. Rosenberg M. Ross-Lonergan C. Rudolph von Rohr G. Scanavini D.W. Schmitz A. Schukraft W. Seligman M.H. Shaevitz R. Sharankova J. Shi J. Sinclair A. Smith E.L. Snider M. Soderberg S. Soldner-Rembold P. Spentzouris J. Spitz M. Stancari J. St. John T. Strauss K. Sutton S. Sword-Fehlberg A.M. Szelc W. Tang K. Terao C.Thorpe D. Torbunov D. Totani M. Toups Y.-T. Tsai M.A. Uchida T. Usher B. Viren M. Weber H. Wei A.J. White Z. Williams S. Wolbers T. Wongjirad M. Wospakrik K. Wresilo N. Wright W. Wu E. Yandel T. Yang G. Yarbrough L.E. Yates H.W. Yu G.P. Zeller J. Zennamo C. Zhang M. Zuckerbrot
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classification physics.ins-det hep-ex
keywords argonliquidradonfiltrationmicroboonemitigationsystemlartpc
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The MicroBooNE liquid argon time projection chamber (LArTPC) maintains a high level of liquid argon purity through the use of a filtration system that removes electronegative contaminants in continuously-circulated liquid, recondensed boil off, and externally supplied argon gas. We use the MicroBooNE LArTPC to reconstruct MeV-scale radiological decays. Using this technique we measure the liquid argon filtration system's efficacy at removing radon. This is studied by placing a 500 kBq $^{222}$Rn source upstream of the filters and searching for a time-dependent increase in the number of radiological decays in the LArTPC. In the context of two models for radon mitigation via a liquid argon filtration system, a slowing mechanism and a trapping mechanism, MicroBooNE data supports a radon reduction factor of greater than 99.999% or 97%, respectively. Furthermore, a radiological survey of the filters found that the copper-based filter material was the primary medium that removed the $^{222}$Rn. This is the first observation of radon mitigation in liquid argon with a large-scale copper-based filter and could offer a radon mitigation solution for future large LArTPCs.

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