The Cryogenic Underground Observatory for Rare Events (CUORE) is the first bolometric experiment searching for neutrino-less double-beta (0νββ) decay that has been able to reach the one-ton scale. The detector, located at the Laboratori Nazionali del Gran Sasso in Italy, consists of an array of 988 TeO2 crystals arranged in a compact cylindrical structure of 19 towers. Following the completion of the detector construction in August 2016, CUORE began its first physics data run in 2017 at a base temperature of about 10 mK. Following multiple optimization campaigns in 2018, CUORE is currently in stable operating mode. In 2019, CUORE released its second result of the search for 0νββ corresponding to a TeO2 exposure of 372.5 kgyr and a median exclusion sensitivity to a 130Te 0νββ decay half-life of 1.7 1025 yr. We find no evidence for 0νββ decay and set a 90% C.I. Bayesian lower limit of 3.2 1025 yr on the 130Te 0νββ decay half-life. We present the current status of CUORE's search for 0νββ. We give an update of the CUORE background model and the measurement of the 130Te two neutrino double-beta (2νββ) decay half-life. Eventually, we show the preliminary results on half-life limits from the analysis of 130Te 0νββ and 2νββ decay to the first 0+ excited state of 130Xe.

Nutini, I., Adams, D., Alduino, C., Alfonso, K., Avignone, F., Azzolini, O., et al. (2022). New results from the CUORE experiment. INTERNATIONAL JOURNAL OF MODERN PHYSICS A, 37(7) [10.1142/S0217751X22400140].

New results from the CUORE experiment

Nutini I.
Membro del Collaboration Group
;
Beretta M.;Biassoni M.;Branca A.;Brofferio C.;Capelli S.;Carniti P.;Chiesa D.;Clemenza M.;Cremonesi O.;Dell'oro S.;Faverzani M.;Ferri E.;Fiorini E.;Giachero A.;Gironi L.;Gotti C.;Nastasi M.;Nucciotti A.;Pavan M.;Pessina G.;Pozzi S.;Previtali E.;Puiu A.;Sisti M.;Terranova F.;
2022

Abstract

The Cryogenic Underground Observatory for Rare Events (CUORE) is the first bolometric experiment searching for neutrino-less double-beta (0νββ) decay that has been able to reach the one-ton scale. The detector, located at the Laboratori Nazionali del Gran Sasso in Italy, consists of an array of 988 TeO2 crystals arranged in a compact cylindrical structure of 19 towers. Following the completion of the detector construction in August 2016, CUORE began its first physics data run in 2017 at a base temperature of about 10 mK. Following multiple optimization campaigns in 2018, CUORE is currently in stable operating mode. In 2019, CUORE released its second result of the search for 0νββ corresponding to a TeO2 exposure of 372.5 kgyr and a median exclusion sensitivity to a 130Te 0νββ decay half-life of 1.7 1025 yr. We find no evidence for 0νββ decay and set a 90% C.I. Bayesian lower limit of 3.2 1025 yr on the 130Te 0νββ decay half-life. We present the current status of CUORE's search for 0νββ. We give an update of the CUORE background model and the measurement of the 130Te two neutrino double-beta (2νββ) decay half-life. Eventually, we show the preliminary results on half-life limits from the analysis of 130Te 0νββ and 2νββ decay to the first 0+ excited state of 130Xe.
Articolo in rivista - Articolo scientifico
Scientifica
background model; cryogenic detectors; Neutrinoless double beta decay; two-neutrino double beta decay;
English
Nutini, I., Adams, D., Alduino, C., Alfonso, K., Avignone, F., Azzolini, O., et al. (2022). New results from the CUORE experiment. INTERNATIONAL JOURNAL OF MODERN PHYSICS A, 37(7) [10.1142/S0217751X22400140].
Nutini, I; Adams, D; Alduino, C; Alfonso, K; Avignone, F; Azzolini, O; Bari, G; Bellini, F; Benato, G; Beretta, M; Biassoni, M; Branca, A; Brofferio, C; Bucci, C; Camilleri, J; Caminata, A; Campani, A; Canonica, L; Cao, X; Capelli, S; Cappelli, L; Cardani, L; Carniti, P; Casali, N; Celi, E; Chiesa, D; Clemenza, M; Copello, S; Cremonesi, O; Creswick, R; D'Addabbo, A; Dafinei, I; Dell'Oro, S; Di Domizio, S; Dompe, V; Fang, D; Fantini, G; Faverzani, M; Ferri, E; Ferroni, F; Fiorini, E; Franceschi, M; Freedman, S; Fu, S; Fujikawa, B; Giachero, A; Gironi, L; Giuliani, A; Gorla, P; Gotti, C; Gutierrez, T; Han, K; Hansen, E; Heeger, K; Huang, R; Huang, H; Johnston, J; Keppel, G; Kolomensky, Y; Ligi, C; Ma, L; Ma, Y; Marini, L; Maruyama, R; Mayer, D; Mei, Y; Moggi, N; Morganti, S; Napolitano, T; Nastasi, M; Nikkel, J; Nones, C; Norman, E; Nucciotti, A; O'Donnell, T; Ouellet, J; Pagan, S; Pagliarone, C; Pagnanini, L; Pallavicini, M; Pattavina, L; Pavan, M; Pessina, G; Pettinacci, V; Pira, C; Pirro, S; Pozzi, S; Previtali, E; Puiu, A; Rosenfeld, C; Rusconi, C; Sakai, M; Sangiorgio, S; Schmidt, B; Scielzo, N; Sharma, V; Singh, V; Sisti, M; Speller, D; Surukuchi, P; Taffarello, L; Terranova, F; Tomei, C; Vetter, K; Vignati, M; Wagaarachchi, S; Wang, B; Welliver, B; Wilson, J; Wilson, K; Winslow, L; Zimmermann, S; Zucchelli, S
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Utilizza questo identificativo per citare o creare un link a questo documento: http://hdl.handle.net/10281/381942
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