XENON1T Dark Matter Data Analysis: Signal Reconstruction, Calibration and Event Selection

Elena Aprile,J. Aalbers,F. Agostini,M. Alfonsi,L. Althueser,Fernando D. Amaro,V. C. Antochi,Francesco Arneodo,Laura Baudis,B. Bauermeister,Lorenzo Bellagamba,M. L. Benabderrahmane,T. Berger,P. A. Breur,Anthony Brown,Ethan Brown,S. Bruenner,Giuseppe Eugenio Bruno,R. Budnik,C. Capelli,João Cardoso,D. Cichon,D. Coderre,A. P. Colijn,Jan Conrad,Jean Pierre Cussonneau,M. P. Decowski,P. de Perio,P. Di Gangi,A. Di Giovanni,S. Diglio,A. Elykov,G. Eurin,J. Fei,Alfredo D. Ferella,A. Fieguth,W. Fulgione,A. Gallo Rosso,M. Galloway,F. Gao,M. Garbini,L. Grandi,Z. Greene,C. Hasterok,E. Hogenbirk,J. Howlett,M. Iacovacci,R. Itay,F. Joerg,Shingo Kazama,A. Kish,G. Koltman,A. Kopec,H. Landsman,Rafael F. Lang,L. J. Levinson,Qing Lin,Sebastian Lindemann,Manfred Lindner,F. Lombardi,Jose Lopes,E. Lopez Fune,C. Macolino,J. Mahlstedt,A. Manfredini,Fabrizio Marignetti,T. Marrodán Undagoitia,J. Masbou,D. Masson,S. Mastroianni,M. Messina,K. Micheneau,K. Miller,A. Molinario,K. Morå,Y. Mosbacher,M. Murra,J. Naganoma,Kaixuan Ni,U. Oberlack,K. Odgers,B. Pelssers,R. Peres,F. Piastra,J. Pienaar,V. Pizzella,Guillaume Plante,R. Podviianiuk,H. Qiu,D. Ramírez García,S. Reichard,B. Riedel,A. Rizzo,A. Rocchetti,N. Rupp,J.M.F. dos Santos,G. Sartorelli,N. Šarčević,M. Scheibelhut,S. Schindler,Jochen Schreiner,D. Schulte,Marc Schumann,L. Scotto Lavina,M. Selvi,P. Shagin,E. Shockley,Manuel Silva,H. Simgen,C. Therreau,Dominique Thers,F. Toschi,G. Trinchero,C. Tunnell,N. Upole,M. Vargas,O. Wack,H. Wang,Z. Wang,Y. Wei,Ch. Weinheimer,D. Wenz,C. Wittweg,J. Wulf,J. Ye,Yu Zhang,T. Zhu,J. P. Zopounidis

XENON1T Dark Matter Data Analysis: Signal Reconstruction, Calibration and Event Selection

2019

The XENON1T experiment at the Laboratori Nazionali del Gran Sasso is the most sensitive direct detection experiment for dark matter in the form of weakly interacting particles (WIMPs) with masses above $6\,$GeV/$c^2$ scattering off nuclei. The detector employs a dual-phase time projection chamber with 2.0 tonnes of liquid xenon in the target. A one $\mathrm{tonne}\times\mathrm{year}$ exposure of science data was collected between October 2016 and February 2018. This article reports on the performance of the detector during this period and describes details of the data analysis that led to the most stringent exclusion limits on various WIMP-nucleon interaction models to date. In particular, signal reconstruction, event selection and calibration of the detector response to signal-like and background-like interactions in XENON1T are discussed.

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