Toward CUPID-1T
Abstract
Current experiments to search for broken lepton-number symmetry through the observation of neutrinoless double-beta decay () provide the most stringent limits on the Majorana nature of neutrinos and the effective Majorana neutrino mass (). The next-generation experiments will focus on the sensitivity to the half-life of --~years and ~meV, which would provide complete coverage of the so-called Inverted Ordering region of the neutrino mass parameter space. By taking advantage of recent technological breakthroughs, new, future calorimetric experiments at the 1-ton scale can increase the sensitivity by at least another order of magnitude, exploring the large fraction of the parameter space that corresponds to the Normal neutrino mass ordering. In case of a discovery, such experiments could provide important insights toward a new understanding of the mechanism of . We present here a series of projects underway that will provide advancements in background reduction, cryogenic readout, and physics searches beyond , all moving toward the next-to-next generation CUPID-1T detector.
Cite
@article{arxiv.2203.08386,
title = {Toward CUPID-1T},
author = {A. Armatol and C. Augier and F. T. Avignone and O. Azzolini and M. Balata and K. Ballen and A. S. Barabash and G. Bari and A. Barresi and D. Baudin and F. Bellini and G. Benato and M. Beretta and M. Bettelli and M. Biassoni and J. Billard and V. Boldrini and A. Branca and C. Brofferio and C. Bucci and J. Camilleri and C. Capelli and S. Capelli and L. Cappelli and L. Cardani and P. Carniti and N. Casali and E. Celi and C. Chang and D. Chiesa and M. Clemenza and I. Colantoni and S. Copello and E. Craft and O. Cremonesi and R. J. Creswick and A. Cruciani and A. D'Addabbo and G. D'Imperio and S. Dabagov and I. Dafinei and M. De Jesus and P. de Marcillac and S. Dell'Oro and S. Di Domizio and S. Di Lorenzo and T. Dixon and V. Dompè and A. Drobizhev and L. Dumoulin and G. Fantini and M. Faverzani and E. Ferri and F. Ferri and F. Ferroni and E. Figueroa-Feliciano and L. Foggetta and J. Formaggio and A. Franceschi and C. Fu and S. Fu and B. K. Fujikawa and A. Gallas and J. Gascon and S. Ghislandi and A. Giachero and A. Gianvecchio and L. Gironi and A. Giuliani and P. Gorla and C. Gotti and C. Grant and P. Gras and P. V. Guillaumon and T. D. Gutierrez and K. Han and E. V. Hansen and K. M. Heeger and D. Helis and D. L. Helis and H. Z. Huang and R. G. Huang and L. Imbert and J. Johnston and A. Juillard and G. Karapetrov and G. Keppel and H. Khalife and V. V. Kobychev and Yu. G. Kolomensky and S. I. Konovalov and R. Kowalski and T. Langford and R. Liu and Y. Liu and P. Loaiza and L. Ma and M. Madhukuttan and F. Mancarella and L. Marini and S. Marnieros and M. Martinez and R. H. Maruyama and B. Mauri and D. Mayer and G. Mazzitelli and Y. Mei and S. Milana and S. Morganti and T. Napolitano and M. Nastasi and J. Nikkel and S. Nisi and C. Nones and E. B. Norman and V. Novosad and I. Nutini and T. O'Donnell and E. Olivieri and M. Olmi and J. L. Ouellet and S. Pagan and C. Pagliarone and L. Pagnanini and L. Pattavina and M. Pavan and H. Peng and G. Pessina and V. Pettinacci and C. Pira and S. Pirro and D. V. Poda and O. G. Polischuk and I. Ponce and S. Pozzi and E. Previtali and A. Puiu and S. Quitadamo and A. Ressa and R. Rizzoli and C. Rosenfeld and P. Rosier and J. Scarpaci and B. Schmidt and V. Sharma and V. Shlegel and V. Singh and M. Sisti and P. Slocum and D. Speller and P. T. Surukuchi and L. Taffarello and C. Tomei and J. Torres and V. I. Tretyak and A. Tsymbaliuk and M. Velazquez and K. J. Vetter and S. L. Wagaarachchi and G. Wang and L. Wang and R. Wang and B. Welliver and J. Wilson and K. Wilson and L. A. Winslow and M. Xue and L. Yan and J. Yang and V. Yefremenko and V. I. Umatov and M. M. Zarytskyy and J. Zhang and A. Zolotarova and S. Zucchelli},
journal= {arXiv preprint arXiv:2203.08386},
year = {2022}
}
Comments
contribution to Snowmass 2021