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The Deep Underground Neutrino Experiment (DUNE) is a next generation experiment aimed to study neutrino oscillation. Its long-baseline configuration will exploit a Near Detector (ND) and a Far Detector (FD) located at a distance of ∼1300 km. The FD will consist of four Liquid Argon Time Projection Chamber (LAr TPC) modules. A Photon Detection System (PDS) will be used to detect the scintillation light produced inside the detector after neutrino interactions. The PDS will be based on light collectors coupled to Silicon Photomultipliers (SiPMs). Different photosensor technologies have been proposed and produced in order to identify the best samples to fullfill the experiment requirements. In this paper, we present the procedure and results of a validation campaign for the Hole Wire Bonding (HWB) MPPCs samples produced by Hamamatsu Photonics K.K. (HPK) for the DUNE experiment, referring to them as `SiPMs'. The protocol for a characterization at cryogenic temperature (77 K) is reported. We present the down-selection criteria and the results obtained during the selection campaign undertaken, along with a study of the main sources of noise of the SiPMs including the investigation of a newly observed phenomenon in this field.

Cryogenic characterization of Hamamatsu HWB MPPCs for the DUNE photon detection system

Andreotti, M.;Bertolucci, S.;Branca, A.;Brizzolari, C.;Brunetti, G.;Calabrese, R.;Carniti, P.;Casazza, D.;Cattadori, C.;Calvo, E.;Cervera, A.;Chiozzi, S.;Cicero, V.;Cotta Ramusino, A.;Cristaldo Morales, E.;Cuesta, C.;D'Amico, R.;De la Torre, A.;Delgado Gonzalez, M.;Di Capua, F.;Di Ferdinando, D.;Dyshkant, A.;Eads, M.;Falcone, A.;Fialova, E.;Filip, P.;Fiorillo, G.;Fiorini, M.;Francis, K.;Galizzi, F.;Gallice, N.;Garcia-Gamez, D.;García-Peris, M. Á.;Giammaria, T.;Gil-Botella, I.;Giugliano, C.;Gotti, C.;Guarise, M.;Guffanti, D.;Kovalcuk, M.;Lax, I.;Lazzaroni, M.;Lokajicek, M.;Luppi, E.;Manthey, S.;Martin-Albo, J.;Mauri, N.;Meazza, L.;Minotti, A.;Moggi, N.;Montagna, E.;Montanari, A.;Neri, I.;Nicolas-Arnaldos, F. J.;Palomares, C.;Pasqualini, L.;Patrizii, L.;Pérez-Molina, L.;Pessina, G.;Pia, V.;Poppi, F.;Pozzato, M.;Querol, M.;Rocabado, J.;Saadana, A.;Sala, P.;Sanchez-Castillo, A.;Sanchez-Lucas, P.;Schifano, Fabio;Sirri, G.;Smolik, J.;Spanu, M.;Terranova, F.;Tenti, M.;Tomassetti, L.;Torti, M.;Tosi, N.;Verdugo de Osa, A.;Vieira de Souza, H.;Zalesak, J.;Zamorano, B.;Zani, A.;Zucchelli, S.;Zuklin, J.;Zutshi, V.

2024

Abstract

The Deep Underground Neutrino Experiment (DUNE) is a next generation experiment aimed to study neutrino oscillation. Its long-baseline configuration will exploit a Near Detector (ND) and a Far Detector (FD) located at a distance of ∼1300 km. The FD will consist of four Liquid Argon Time Projection Chamber (LAr TPC) modules. A Photon Detection System (PDS) will be used to detect the scintillation light produced inside the detector after neutrino interactions. The PDS will be based on light collectors coupled to Silicon Photomultipliers (SiPMs). Different photosensor technologies have been proposed and produced in order to identify the best samples to fullfill the experiment requirements. In this paper, we present the procedure and results of a validation campaign for the Hole Wire Bonding (HWB) MPPCs samples produced by Hamamatsu Photonics K.K. (HPK) for the DUNE experiment, referring to them as `SiPMs'. The protocol for a characterization at cryogenic temperature (77 K) is reported. We present the down-selection criteria and the results obtained during the selection campaign undertaken, along with a study of the main sources of noise of the SiPMs including the investigation of a newly observed phenomenon in this field.

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	Anno di pubblicazione
	
			2024
		
	DOI
	
			https://dx.doi.org/10.1088/1748-0221/19/01/t01007
		
	Titolo della Rivista
	
			JOURNAL OF INSTRUMENTATION
		
	Tutti gli autori
	
			Andreotti, M.; Bertolucci, S.; Branca, A.; Brizzolari, C.; Brunetti, G.; Calabrese, R.; Carniti, P.; Casazza, D.; Cattadori, C.; Calvo, E.; Cervera, A.; Chiozzi, S.; Cicero, V.; Cotta Ramusino, A.; Cristaldo Morales, E.; Cuesta, C.; D'Amico, R.; De la Torre, A.; Delgado Gonzalez, M.; Di Capua, F.; Di Ferdinando, D.; Dyshkant, A.; Eads, M.; Falcone, A.; Fialova, E.; Filip, P.; Fiorillo, G.; Fiorini, M.; Francis, K.; Galizzi, F.; Gallice, N.; Garcia-Gamez, D.; García-Peris, M. Á.; Giammaria, T.; Gil-Botella, I.; Giugliano, C.; Gotti, C.; Guarise, M.; Guffanti, D.; Kovalcuk, M.; Lax, I.; Lazzaroni, M.; Lokajicek, M.; Luppi, E.; Manthey, S.; Martin-Albo, J.; Mauri, N.; Meazza, L.; Minotti, A.; Moggi, N.; Montagna, E.; Montanari, A.; Neri, I.; Nicolas-Arnaldos, F. J.; Palomares, C.; Pasqualini, L.; Patrizii, L.; Pérez-Molina, L.; Pessina, G.; Pia, V.; Poppi, F.; Pozzato, M.; Querol, M.; Rocabado, J.; Saadana, A.; Sala, P.; Sanchez-Castillo, A.; Sanchez-Lucas, P.; Schifano, Fabio; Sirri, G.; Smolik, J.; Spanu, M.; Terranova, F.; Tenti, M.; Tomassetti, L.; Torti, M.; Tosi, N.; Verdugo de Osa, A.; Vieira de Souza, H.; Zalesak, J.; Zamorano, B.; Zani, A.; Zucchelli, S.; Zuklin, J.; Zutshi, V.
		
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/2542571

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