Searching for Neutrinoless Double-Beta Decay of130Te with CUORE

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ID: 116943
2015
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Abstract
Neutrinoless double-beta (0νββ) decay is a hypothesized lepton-number-violating process that offers the only known means of asserting the possible Majorana nature of neutrino mass. The Cryogenic Underground Observatory for Rare Events (CUORE) is an upcoming experiment designed to search for 0νββdecay of130Te using an array of 988 TeO2crystal bolometers operated at 10 mK. The detector will contain 206 kg of130Te and have an average energy resolution of 5 keV; the projected 0νββdecay half-life sensitivity after five years of livetime is 1.6 × 1026 y at 1σ(9.5 × 1025 y at the 90% confidence level), which corresponds to an upper limit on the effective Majorana mass in the range 40–100 meV (50–130 meV). In this paper, we review the experimental techniques used in CUORE as well as its current status and anticipated physics reach.
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Authors D. R. Artusa,F. T. Avignone,Oscar Azzolini,M. Balata,T.I. Banks,G. Bari,J. Beeman,F. Bellini,Andrea Bersani,Matteo Biassoni,C Brofferio,C Bucci,X.Z. Cai,Andrea Camacho,Lucia Canonica,X. G. Cao,Silvia Capelli,L. Carbone,L. Cardani,M. Carrettoni,N. Casali,D. Chiesa,N. Chott,Massimiliano Clemenza,S. Copello,C. Cosmelli,O. Cremonesi,R. J. Creswick,I. Dafinei,A. Dally,V. Datskov,A. De Biasi,M. M. DeNinno,S. Di Domizio,M. L. Di Vacri,L. Ejzak,D. Q. Fang,H. A. Farach,Marco Faverzani,G. Fernandes,E. Ferri,F. Ferroni,E. Fiorini,M. A. Franceschi,S. J. Freedman,B. K. Fujikawa,Andrea Giachero,Luca Gironi,A. Giuliani,J. Goett,P. Gorla,C. Gotti,Thomas Gutierrez,E. E. Haller,Ke Han,K. M. Heeger,R. Hennings-Yeomans,H. Z. Huang,R. Kadel,K. Kazkaz,G. Keppel,Yu. G. Kolomensky,Y. L. Li,C. Ligi,X. Liu,Y. G. Ma,C. Maiano,M. Maino,M. Martinez,R. Maruyama,Y. Mei,N. Moggi,S. Morganti,T. Napolitano,S. Nisi,C. Nones,E. B. Norman,A. Nucciotti,T. O’Donnell,F. Orio,D. Orlandi,J. L. Ouellet,M. Pallavicini,V. Palmieri,Luca Pattavina,Maura Pavan,M. Pedretti,G. Pessina,V. Pettinacci,G. Piperno,Cristian Pira,S. Pirro,E. Previtali,V. Rampazzo,C. Rosenfeld,C. Rusconi,E. Sala,S. Sangiorgio,N. D. Scielzo,M. Sisti,A. R. Smith,L. Taffarello,M. Tenconi,F. Terranova,W. D. Tian,C. Tomei,S. Trentalange,G. Ventura,Marco Vignati,B. S. Wang,H. W. Wang,L. Wielgus,J. Wilson,L. A. Winslow,T. Wise,A. Woodcraft,L. Zanotti,C. Zarra,B. X. Zhu,S. Zucchelli;D. R. Artusa;F. T. Avignone;Oscar Azzolini;M. Balata;T.I. Banks;G. Bari;J. Beeman;F. Bellini;Andrea Bersani;Matteo Biassoni;C Brofferio;C Bucci;X.Z. Cai;Andrea Camacho;Lucia Canonica;X. G. Cao;Silvia Capelli;L. Carbone;L. Cardani;M. Carrettoni;N. Casali;D. Chiesa;N. Chott;Massimiliano Clemenza;S. Copello;C. Cosmelli;O. Cremonesi;R. J. Creswick;I. Dafinei;A. Dally;V. Datskov;A. De Biasi;M. M. DeNinno;S. Di Domizio;M. L. Di Vacri;L. Ejzak;D. Q. Fang;H. A. Farach;Marco Faverzani;G. Fernandes;E. Ferri;F. Ferroni;E. Fiorini;M. A. Franceschi;S. J. Freedman;B. K. Fujikawa;Andrea Giachero;Luca Gironi;A. Giuliani;J. Goett;P. Gorla;C. Gotti;Thomas Gutierrez;E. E. Haller;Ke Han;K. M. Heeger;R. Hennings-Yeomans;H. Z. Huang;R. Kadel;K. Kazkaz;G. Keppel;Yu. G. Kolomensky;Y. L. Li;C. Ligi;X. Liu;Y. G. Ma;C. Maiano;M. Maino;M. Martinez;R. Maruyama;Y. Mei;N. Moggi;S. Morganti;T. Napolitano;S. Nisi;C. Nones;E. B. Norman;A. Nucciotti;T. O’Donnell;F. Orio;D. Orlandi;J. L. Ouellet;M. Pallavicini;V. Palmieri;Luca Pattavina;Maura Pavan;M. Pedretti;G. Pessina;V. Pettinacci;G. Piperno;Cristian Pira;S. Pirro;E. Previtali;V. Rampazzo;C. Rosenfeld;C. Rusconi;E. Sala;S. Sangiorgio;N. D. Scielzo;M. Sisti;A. R. Smith;L. Taffarello;M. Tenconi;F. Terranova;W. D. Tian;C. Tomei;S. Trentalange;G. Ventura;Marco Vignati;B. S. Wang;H. W. Wang;L. Wielgus;J. Wilson;L. A. Winslow;T. Wise;A. Woodcraft;L. Zanotti;C. Zarra;B. X. Zhu;S. Zucchelli;
Journal advances in high energy physics
Year 2015
DOI 10.1155/2015/879871
URL
https://sciprofiles.com/publication/view/976a13a9174f9e183110e29c02cfc2a7
Keywords
decay cuore neutrinoless double beta bolometers x2009 xd7 130te

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