Measurement of the Longitudinal Diffusion of Ionization Electrons in the MicroBooNE Detector

P. Abratenko,R An,J Anthony,J. Asaadi,Adi Ashkenazi,S. Balasubramanian,B.R. Baller,Chris P. Barnes,G. D. Barr,V. Basque,L. Bathe-Peters,O. Benevides Rodrigues,S. Berkman,A. Bhanderi,A. Bhat,M. Bishai,Andrew Blake,T. A. Bolton,L. Camilleri,D. Caratelli,I. Caro Terrazas,R. Castillo Fernandez,F. Cavanna,G. B. Cerati,Y Chen,E. Church,D Cianci,Jan Conrad,M. E. Convery,L. Cooper-Troendle,J. I. Crespo-Anadón,M. Del Tutto,S. R. Dennis,D. Devitt,R. Diurba,R. Dorrill,K. E. Duffy,S. A. Dytman,B. Eberly,Antonio Ereditato,J J Evans,R. Fine,G.A. Fiorentini-Aguirre,R.S. Fitzpatrick,B.T. Fleming,N. Foppiani,D. Franco,A. P. Furmanski,D. García Gámez,S Gardiner,G Ge,S. Gollapinni,O. Goodwin,E. Gramellini,Paul J. Green,H. Greenlee,W Gu,R. Guenette,P. Guzowski,L. Hagaman,Evan D. Hall,Phoebe Meredith Hamilton,Or Hen,G. A. Horton-Smith,A. Hourlier,R. Itay,C.W. James,X. P. Ji,L. Jiang,J.H. Jo,R. A. Johnson,Y J Jwa,N. Kamp,N. Kaneshige,G. Karagiorgi,W. Ketchum,M. Kirby,T. Kobilarcik,I. Kreslo,R. LaZur,I. Lepetic,K Li,Yangmu Li,K. Lin,A. Lister,B.R. Littlejohn,W. C. Louis,X. Luo,K Manivannan,C Mariani,D Marsden,J. L. Marshall,D. A. Martinez Caicedo,K. Mason,A. Mastbaum,N. McConkey,V. Meddage,T. Mettler,Kate C. Miller,J. Mills,Khilesh Pradip Mistry,T. Mohayai,A. Mogan,J Moon,M. Mooney,A. Moór,C. D. Moore,L. Mora Lepin,J. Mousseau,M Murphy,D. Naples,A. Navrer Agasson,R. K. Neely,J A Nowak,M Nunes,O. Palamara,V. Paolone,A. Papadopoulou,V. Papavassiliou,S. F. Pate,A Paudel,Z. Pavlovic,E. Piasetzky,I. Ponce-Pinto,Sebastien Prince,X. Qian,J. L. Raaf,Veljko Radeka,A Rafique,M. Reggiani-Guzzo,L Ren,L.C.J. Rice,L.S. Rochester,J. Rodriguez Rondon,H. E. Rogers,M. Rosenberg,M. Ross-Lonergan,G. Scanavini,D.W. Schmitz,A. Schukraft,W.G. Seligman,M. H. Shaevitz,R. Sharankova,J. Sinclair,A. M. Smith,E.L. Snider,M. Soderberg,S. Söldner-Rembold,Panagiotis Spentzouris,Joshua Spitz,M. Stancari,J. St. John,Thomas Strauss,K. Sutton,S. Sword-Fehlberg,A.M. Szelc,N. Tagg,William Tang,K. Terao,C. Thorpe,D. Totani,M. Toups,Y. T. Tsai,M. A. Uchida,T. Usher,W. Van De Pontseele,Brett Viren,M Weber,H. Wei,Z. Williams,S. Wolbers,T. Wongjirad,M. Wospakrik,N. Wright,weimin wu,E. Yandel,T. Yang,G. Yarbrough,L.E. Yates,G. P. Zeller,J. Zennamo,Chao Zhang

Measurement of the Longitudinal Diffusion of Ionization Electrons in the MicroBooNE Detector

2021

Accurate knowledge of electron transport properties is vital to understanding the information provided by liquid argon time projection chambers (LArTPCs). Ionization electron drift-lifetime, local electric field distortions caused by positive ion accumulation, and electron diffusion can all significantly impact the measured signal waveforms. This paper presents a measurement of the effective longitudinal electron diffusion coefficient, $D_L$, in MicroBooNE at the nominal electric field strength of 273.9 V/cm. Historically, this measurement has been made in LArTPC prototype detectors. This represents the first measurement in a large-scale (85 tonne active volume) LArTPC operating in a neutrino beam. This is the largest dataset ever used for this measurement. Using a sample of $\sim$70,000 through-going cosmic ray muon tracks tagged with MicroBooNE's cosmic ray tagger system, we measure $D_L = 3.74^{+0.28}_{-0.29}$ cm$^2$/s.

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