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arxiv: 2212.11099 · v1 · pith:ZNKR2E4T · submitted 2022-12-21 · nucl-ex · nucl-th

Neutrinoless Double Beta Decay

C. Adams , K. Alfonso , C. Andreoiu , E. Angelico , I.J. Arnquist , J.A.A. Asaadi , F.T. Avignone , S. N. Axani
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A.S. Barabash P.S. Barbeau L. Baudis F. Bellini M. Beretta T. Bhatta V. Biancacci M. Biassoni E. Bossio P.A. Breur J.P. Brodsky C. Brofferio E. Brown R. Brugnera T. Brunner N. Burlac E. Caden S. Calgaro G.F. Cao L. Cao C. Capelli L. Cardani R. Castillo Fernandez C.M. Cattadori B. Chana D. Chernyak C.D. Christofferson P.-H. Chu E. Church V. Cirigliano R. Collister T. Comellato J. Dalmasson V. D'Andrea T. Daniels L. Darroch M.P. Decowski M. Demarteau S. De Meireles Peixoto J.A. Detwiler R.G. DeVoe S. Di Domizio N. Di Marco M.L. di Vacri M.J. Dolinski Yu. Efremenko M. Elbeltagi S.R. Elliott J. Engel L. Fabris W.M. Fairbank J. Farine M. Febbraro E. Figueroa-Feliciano D.E. Fields J.A. Formaggio B.T. Foust B. Franke Y. Fu B.K. Fujikawa D. Gallacher G. Gallina A. Garfagnini C. Gingras L. Gironi A. Giuliani M. Gold R. Gornea C. Grant G. Gratta M.P. Green G.F. Grinyer J. Gruszko Y. Guan I.S. Guinn V.E. Guiseppe T.D. Gutierrez E.V. Hansen C.A. Hardy J. Hauptman M. Heffner K.M. Heeger R. Henning H. Hergert D. Hervas Aguilar R. Hodak J.D. Holt E.W. Hoppe M. Horoi H.Z. Huang K. Inoue A. Jamil J. Jochum B.J.P. Jones J. Kaizer G. Karapetrov S. Al Kharusi M.F. Kidd Y. Kishimoto J.R. Klein Yu.G. Kolomensky I. Kontul V.N. Kornoukhov P. Krause R. Krucken K.S. Kumar K. Lang K.G. Leach B.G. Lenardo A. Leonhardt A. Li G. Li Z. Li C. Licciardi R. Lindsay I. Lippi J. Liu M. Macko R. MacLellan C. Macolino S. Majidi F. Mamedov J. Masbou R. Massarczyk A.T. Mastbaum D. Mayer A. Mazumdar D.M. Mei Y. Mei S.J. Meijer E. Mereghetti S. Mertens K. Mistry T. Mitsui D.C. Moore M. Morella J.T. Nattress M. Neuberger X.E. Ngwadla C. Nones V. Novosad D.R. Nygren J.C. Nzobadila Ondze T. O'Donnell G.D. Orebi Gann J.L. Orrell G.S. Ortega J. L. Ouellet C. Overman L. Pagani V. Palusova A. Para M. Pavan A. Perna L. Pertoldi W. Pettus A. Piepke P. Piseri A. Pocar P. Povinec F. Psihas A. Pullia D.C. Radford G.J Ramonnye H. Rasiwala M. Redchuk S. Riboldi G. Richardson K. Rielage L. Rogers P.C. Rowson E. Rukhadze R. Saakyan C. Sada G. Salamanna F. Salamida R. Saldanha D.J. Salvat S. Sangiorgio D.C. Schaper S. Schoenert M. Schwarz S.E. Schwartz Y. Shitov F. Simkovic V. Singh M. Slavickova A.C. Sousa F.L. Spadoni D.H. Speller I. Stekl R.R. Sumathi P.T. Surukuchi R. Tayloe W. Tornow J.A. Torres T.I. Totev S. Triambak O.A. Tyuka S.I.Vasilyev M. Velazquez S. Viel C. Vogl K. von Strum Q. Wang D. Waters S.L. Watkins M. Watts W.-Z. Wei B. Welliver Liangjian Wen U. Wichoski S. Wilde J.F. Wilkerson L. Winslow C. Wiseman X. Wu W. Xu H. Yang L. Yang C.H. Yu J. Zeman J. Zennamo G. Zuzel
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keywords betadecaydoublenuclearphysicswhitecasecollaborations
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This White Paper, prepared for the Fundamental Symmetries, Neutrons, and Neutrinos Town Meeting related to the 2023 Nuclear Physics Long Range Plan, makes the case for double beta decay as a critical component of the future nuclear physics program. The major experimental collaborations and many theorists have endorsed this white paper.

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