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The EXO-200 detector, part II: Auxiliary Systems

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arxiv 2107.06007 v3 pith:YWSNGP5Y submitted 2021-07-13 physics.ins-det hep-exnucl-ex

The EXO-200 detector, part II: Auxiliary Systems

N. Ackerman , J. Albert , M. Auger , D. J. Auty , I. Badhrees , P. S. Barbeau , L. Bartoszek , E. Baussan
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V. Belov C. Benitez-Medina T. Bhatta M. Breidenbach T. Brunner G. F. Cao W. R. Cen C. Chambers B. Cleveland R. Conley S. Cook M. Coon W. Craddock A. Craycraft W. Cree T. Daniels L. Darroch S. J. Daugherty J. Daughhetee C. G. Davis J. Davis S. Delaquis A. Der Mesrobian-Kabakian R. deVoe T. Didberidze J. Dilling A. Dobi A. G. Dolgolenko M. J. Dolinski M. Dunford J. Echevers L. Espic W. Fairbank Jr. D. Fairbank J. Farine W. Feldmeier S. Feyzbakhsh P. Fierlinger K. Fouts D. Franco D. Freytag D. Fudenberg P. Gautam G. Giroux R. Gornea K. Graham G. Gratta C. Hagemann C. Hall K. Hall G. Haller E. V. Hansen C. Hargrove R. Herbst S. Herrin J. Hodgson M. Hughes A. Iverson A. Jamil C. Jessiman M. J. Jewell A. Johnson T. N. Johnson S. Johnston A. Karelin L. J. Kaufman R. Killick T. Koffas S. Kravitz R. Kr\"ucken A. Kuchenkov K. S. Kumar Y. Lan A. Larson D. S. Leonard F. Leonard F. LePort G. S. Li S. Li Z. Li C. Licciardi Y. H. Lin D. Mackay R. MacLellan M. Marino J.-M. Martin Y. Martin T. McElroy K. McFarlane T. Michel B. Mong D. C. Moore K. Murray R. Neilson O. Njoya O. Nusair K. O'Sullivan A. Odian I. Ostrovskiy C. Ouellet A. Piepke A. Pocar C.Y. Prescott K. Pushkin F. Retiere A. Rivas A. L. Robinson E. Rollin P. C. Rowson M. P. Rozo J. Runge J. J. Russell S. Schmidt A. Schubert D. Sinclair K. Skarpaas S. Slutsky E. Smith A. K. Soma V. Stekhanov V. Strickland M. Swift M. Tarka J. Todd T. Tolba D. Tosi T. I. Totev R. Tsang K. Twelker B. Veenstra V. Veeraraghavan J.-L. Vuilleumier J.-M. Vuilleumier M. Wagenpfeil A. Waite J. Walton T. Walton K. Wamba J. Watkins M. Weber L. J. Wen U. Wichoski M. Wittgen J. Wodin J. Wood G. Wrede S. X. Wu Q. Xia L. Yang Y.-R. Yen O. Ya Zeldovich T. Ziegler
This is my paper
classification physics.ins-det hep-exnucl-ex
keywords detectorxenonliquidchamberexo-200systemsachieveacross
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The EXO-200 experiment searched for neutrinoless double-beta decay of $^{136}$Xe with a single-phase liquid xenon detector. It used an active mass of 110 kg of 80.6%-enriched liquid xenon in an ultra-low background time projection chamber with ionization and scintillation detection and readout. This paper describes the design and performance of the various support systems necessary for detector operation, including cryogenics, xenon handling, and controls. Novel features of the system were driven by the need to protect the thin-walled detector chamber containing the liquid xenon, to achieve high chemical purity of the Xe, and to maintain thermal uniformity across the detector.

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