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Cosmogenic production of ³⁷Ar in the context of the LUX-ZEPLIN experiment

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arxiv 2201.02858 v2 pith:D2VS3XW3 submitted 2022-01-08 hep-ex astro-ph.COastro-ph.IMhep-ph

Cosmogenic production of ³⁷Ar in the context of the LUX-ZEPLIN experiment

J. Aalbers , D.S. Akerib , A.K. Al Musalhi , F. Alder , S.K. Alsum , C.S. Amarasinghe , A. Ames , T.J. Anderson
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N. Angelides H.M. Ara\'ujo J.E. Armstrong M. Arthurs X. Bai A. Baker J. Balajthy S. Balashov J. Bang J.W. Bargemann D. Bauer A. Baxter K. Beattie E.P. Bernard A. Bhatti A. Biekert T.P. Biesiadzinski H.J. Birch G.M. Blockinger E. Bodnia B. Boxer C.A.J. Brew P. Br\'as S. Burdin J.K. Busenitz M. Buuck R. Cabrita M.C. Carmona-Benitez M. Cascella C. Chan A. Chawla H. Chen N.I. Chott A. Cole M.V. Converse A. Cottle G. Cox O. Creaner J.E. Cutter C.E. Dahl A. David L. de Viveiros J.E.Y. Dobson E. Druszkiewicz S.R. Eriksen A. Fan S. Fayer N.M. Fearon S. Fiorucci H. Flaecher E.D. Fraser T. Fruth R.J. Gaitskell J. Genovesi C. Ghag E. Gibson M.G.D. Gilchriese S. Gokhale M.G.D.van der Grinten C.B. Gwilliam C.R. Hall S.J. Haselschwardt S.A. Hertel M. Horn D.Q. Huang D. Hunt C.M. Ignarra O. Jahangir R.S. James W. Ji J. Johnson A.C. Kaboth A.C. Kamaha K. Kamdin D. Khaitan A. Khazov I. Khurana D. Kodroff L. Korley E.V. Korolkova H. Kraus S. Kravitz L. Kreczko V.A. Kudryavtsev E.A. Leason D.S. Leonard K.T. Lesko C. Levy J. Lee J. Lin A. Lindote R. Linehan W.H. Lippincott X. Liu M.I. Lopes E. Lopez Asamar B. Lopez-Paredes W. Lorenzon S. Luitz P.A. Majewski A. Manalaysay L. Manenti R.L. Mannino N. Marangou M.E. McCarthy D.N. McKinsey J. McLaughlin E.H. Miller E. Mizrachi A. Monte M.E. Monzani J.A. Morad J.D. Morales Mendoza E. Morrison B.J. Mount A.St.J. Murphy D. Naim A. Naylor C. Nedlik H.N. Nelson F. Neves J.A. Nikoleyczik A. Nilima I. Olcina K. Oliver-Mallory S. Pal K.J. Palladino J. Palmer N. Parveen S.J. Patton E.K. Pease B. Penning G. Pereira E. Perry J. Pershing A. Piepke D. Porzio Y. Qie J. Reichenbacher C.A. Rhyne A. Richards Q. Riffard %Q. Riffard G.R.C. Rischbieter R. Rosero P. Rossiter T. Rushton D. Santone A.B.M.R. Sazzad R.W. Schnee P.R. Scovell S. Shaw T.A. Shutt J.J. Silk C. Silva G. Sinev R. Smith M. Solmaz V.N. Solovov P. Sorensen J. Soria I. Stancu A. Stevens K. Stifter B. Suerfu T.J. Sumner N. Swanson M. Szydagis W.C. Taylor R. Taylor D.J. Temples P.A. Terman D.R. Tiedt M. Timalsina W.H. To Z. Tong D.R. Tovey M. Trask M. Tripathi D.R. Tronstad W. Turner U. Utku A. Vaitkus B. Wang Y. Wang J.J. Wang W. Wang J.R. Watson R.C. Webb R.G. White T.J. Whitis M. Williams F.L.H. Wolfs S. Woodford D. Woodward C.J. Wright Q. Xia X. Xiang J. Xu M. Yeh
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classification hep-ex astro-ph.COastro-ph.IMhep-ph
keywords xenonproductiontonneassumingcosmogenicexperimentlux-zeplinnatural
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We estimate the amount of $^{37}$Ar produced in natural xenon via cosmic ray-induced spallation, an inevitable consequence of the transportation and storage of xenon on the Earth's surface. We then calculate the resulting $^{37}$Ar concentration in a 10-tonne payload~(similar to that of the LUX-ZEPLIN experiment) assuming a representative schedule of xenon purification, storage and delivery to the underground facility. Using the spallation model by Silberberg and Tsao, the sea level production rate of $^{37}$Ar in natural xenon is estimated to be 0.024~atoms/kg/day. Assuming the xenon is successively purified to remove radioactive contaminants in 1-tonne batches at a rate of 1~tonne/month, the average $^{37}$Ar activity after 10~tonnes are purified and transported underground is 0.058--0.090~$\mu$Bq/kg, depending on the degree of argon removal during above-ground purification. Such cosmogenic $^{37}$Ar will appear as a noticeable background in the early science data, while decaying with a 35~day half-life. This newly-noticed production mechanism of $^{37}$Ar should be considered when planning for future liquid xenon-based experiments.

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