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Characterization of cubic Li$$_{2}$$$$^{100}$$MoO$$_4$$ crystals for the CUPID experiment

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dc.creator Armatol, A.
dc.creator Armengaud, E.
dc.creator Armstrong, W.
dc.creator Augier, C.
dc.creator Avignone, F. T.
dc.creator Azzolini, O.
dc.creator Barabash, A.
dc.creator Bari, G.
dc.creator Barresi, A.
dc.creator Baudin, D.
dc.creator Bellini, F.
dc.creator Benato, G.
dc.creator Beretta, M.
dc.creator Bergé, L.
dc.creator Biassoni, M.
dc.creator Billard, J.
dc.creator Boldrini, V.
dc.creator Branca, A.
dc.creator Brofferio, C.
dc.creator Bucci, C.
dc.creator Camilleri, J.
dc.creator Capelli, S.
dc.creator Cappelli, L.
dc.creator Cardani, L.
dc.creator Carniti, P.
dc.creator Casali, N.
dc.creator Cazes, A.
dc.creator Celi, E.
dc.creator Chang, C.
dc.creator Chapellier, M.
dc.creator Charrier, A.
dc.creator Chiesa, D.
dc.creator Clemenza, M.
dc.creator Colantoni, I.
dc.creator Collamati, F.
dc.creator Copello, S.
dc.creator Cremonesi, O.
dc.creator J. Creswick, R.
dc.creator Cruciani, A.
dc.creator D’Addabbo, A.
dc.creator D’Imperio, G.
dc.creator Dafinei, I.
dc.creator A. Danevich, F.
dc.creator de Combarieu, M.
dc.creator De Jesus, M.
dc.creator de Marcillac, P.
dc.creator Dell’Oro, S.
dc.creator Di Domizio, S.
dc.creator Dompè, V.
dc.creator Drobizhev, A.
dc.creator Dumoulin, L.
dc.creator Fantini, G.
dc.creator Faverzani, M.
dc.creator Ferri, E.
dc.creator Ferri, F.
dc.creator Ferroni, F.
dc.creator Figueroa-Feliciano, E.
dc.creator Formaggio, J.
dc.creator Franceschi, A.
dc.creator Fu, C.
dc.creator Fu, S.
dc.creator Fujikawa, B. K.
dc.creator Gascon, J.
dc.creator Giachero, A.
dc.creator Gironi, L.
dc.creator Giuliani, A.
dc.creator Gorla, P.
dc.creator Gotti, C.
dc.creator Gras, P.
dc.creator Gros, M.
dc.creator Gutierrez, T. D.
dc.creator Han, K.
dc.creator Hansen, E. V.
dc.creator Heeger, K. M.
dc.creator Helis, D. L.
dc.creator Huang, H. Z.
dc.creator Huang, R. G.
dc.creator Imbert, L.
dc.creator Johnston, J.
dc.creator Juillard, A.
dc.creator Karapetrov, G.
dc.creator Keppel, G.
dc.creator Khalife, H.
dc.creator Kobychev, V. V.
dc.creator Kolomensky, Yu. G.
dc.creator Konovalov, S.
dc.creator Liu, Y.
dc.creator Loaiza, P.
dc.creator Ma, L.
dc.creator Madhukuttan, M.
dc.creator Mancarella, F.
dc.creator Mariam, R.
dc.creator Marini, L.
dc.creator Marnieros, S.
dc.creator Martinez, M.
dc.creator Maruyama, R. H.
dc.creator Mauri, B.
dc.creator Mayer, D.
dc.creator Mei, Y.
dc.creator Milana, S.
dc.creator Misiak, D.
dc.creator Napolitano, T.
dc.creator Nastasi, M.
dc.creator Navick, X. F.
dc.creator Nikkel, J.
dc.creator Nipoti, R.
dc.creator Nisi, S.
dc.creator Nones, C.
dc.creator Norman, E. B.
dc.creator Novosad, V.
dc.creator Nutini, I.
dc.creator O’Donnell, T.
dc.creator Olivieri, E.
dc.creator Oriol, C.
dc.creator Ouellet, J. L.
dc.creator Pagan, S.
dc.creator Pagliarone, C.
dc.creator Pagnanini, L.
dc.creator Pari, P.
dc.creator Pattavina, L.
dc.creator Paul, B.
dc.creator Pavan, M.
dc.creator Peng, H.
dc.creator Pessina, G.
dc.creator Pettinacci, V.
dc.creator Pira, C.
dc.creator Pirro, S.
dc.creator V. Poda, D.
dc.creator Polakovic, T.
dc.creator Polischuk, O. G.
dc.creator Pozzi, S.
dc.creator Previtali, E.
dc.creator Puiu, A.
dc.creator Ressa, A.
dc.creator Rizzoli, R.
dc.creator Rosenfeld, C.
dc.creator Rusconi, C.
dc.creator Sanglard, V.
dc.creator Scarpaci, J. A.
dc.creator Schmidt, B.
dc.creator Sharma, V.
dc.creator Shlegel, V.
dc.creator Singh, V.
dc.creator Sisti, M.
dc.creator Speller, D.
dc.creator Surukuchi, P. T.
dc.creator Taffarello, L.
dc.creator Tellier, O.
dc.creator Tomei, C.
dc.creator Tretyak, V. I.
dc.creator Tsymbaliuk, A.
dc.creator Velazquez, M.
dc.creator Vetter, K. J.
dc.creator Wagaarachchi, S. L.
dc.creator Wang, G.
dc.creator Wang, L.
dc.creator Welliver, B.
dc.creator Wilson, J.
dc.creator Wilson, K.
dc.creator Winslow, L. A.
dc.creator Xue, M.
dc.creator Yan, L.
dc.creator Yang, J.
dc.creator Yefremenko, V.
dc.creator Yumatov, V.
dc.creator Zarytskyy, M. M.
dc.creator Zhang, J.
dc.creator Zolotarova, A.
dc.creator Zucchelli, S.
dc.date 2022-06-03T20:36:18Z
dc.date 2021-09-20T17:41:27Z
dc.date 2022-06-03T20:36:18Z
dc.date 2021-02
dc.date 2020-12
dc.date 2021-02-14T04:46:31Z
dc.date.accessioned 2023-02-17T20:02:48Z
dc.date.available 2023-02-17T20:02:48Z
dc.identifier 1434-6044
dc.identifier 1434-6052
dc.identifier https://hdl.handle.net/1721.1/132017.2
dc.identifier The European Physical Journal C. 2021 Feb 01;81(2):104
dc.identifier.uri http://localhost:8080/xmlui/handle/CUHPOERS/242094
dc.description Abstract The CUPID Collaboration is designing a tonne-scale, background-free detector to search for double beta decay with sufficient sensitivity to fully explore the parameter space corresponding to the inverted neutrino mass hierarchy scenario. One of the CUPID demonstrators, CUPID-Mo, has proved the potential of enriched Li $$_{2}$$ 2 $$^{100}$$ 100 MoO $$_4$$ 4 crystals as suitable detectors for neutrinoless double beta decay search. In this work, we characterised cubic crystals that, compared to the cylindrical crystals used by CUPID-Mo, are more appealing for the construction of tightly packed arrays. We measured an average energy resolution of ( $$6.7\pm 0.6$$ 6.7 ± 0.6 ) keV FWHM in the region of interest, approaching the CUPID target of 5 keV FWHM. We assessed the identification of $$\alpha $$ α particles with and without a reflecting foil that enhances the scintillation light collection efficiency, proving that the baseline design of CUPID already ensures a complete suppression of this $$\alpha $$ α -induced background contribution. We also used the collected data to validate a Monte Carlo simulation modelling the light collection efficiency, which will enable further optimisations of the detector.
dc.format application/octet-stream
dc.language en
dc.publisher Springer Science and Business Media LLC
dc.relation https://doi.org/10.1140/epjc/s10052-020-08809-8
dc.relation European Physical Journal C
dc.rights Creative Commons Attribution
dc.rights https://creativecommons.org/licenses/by/4.0/
dc.rights The Author(s)
dc.source Springer Berlin Heidelberg
dc.title Characterization of cubic Li$$_{2}$$$$^{100}$$MoO$$_4$$ crystals for the CUPID experiment
dc.type Article
dc.type http://purl.org/eprint/type/JournalArticle


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