Development of thin hydrogenated amorphous silicon detectors on a flexible substrate

The HASPIDE (Hydrogenated Amorphous Silicon PIxels DEtectors) project aims at the development of thin hydrogenated amorphous silicon (a-Si:H) detectors on flexible substrates (mostly Polyimide) for beam monitoring, neutron detection and space applications. Since a-Si:H is a material with superior ra...

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Hauptverfasser: Menichelli, M, Bizzarri, M, Calcagnile, L, Caprai, M, Caricato, A. P, Catalano, R, Cirrone, G. A. P, Croci, T, Cuttone, G, Dunand, S, Fabi, M, Frontini, L, Gianfelici, B, Grimani, C, Ionica, M, Kanxheri, K, Large, M, Liberali, V, Martino, M, Maruccio, G, Mazza, G, Monteduro, A. G, Morozzi, A, Moscatelli, F, Pallotta, S, Papi, A, Passeri, D, Pedio, M, Petasecca, M, Petringa, G, Peverini, F, Piccolo, L, Placidi, P, Quarta, G, Rizzato, S, Rossi, G, Sabbatini, F, Stabile, A, Servoli, L, Talamonti, C, Villani, M, Wheadon, R. J, Wyrsch, N
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Zusammenfassung:The HASPIDE (Hydrogenated Amorphous Silicon PIxels DEtectors) project aims at the development of thin hydrogenated amorphous silicon (a-Si:H) detectors on flexible substrates (mostly Polyimide) for beam monitoring, neutron detection and space applications. Since a-Si:H is a material with superior radiation hardness, the benefit for the above-mentioned applications can be appreciated mostly in radiation harsh environments. Furthermore, the possibility to deposit this material on flexible substrates like Polyimide (PI), polyethylene naphthalate (PEN) or polyethylene terephthalate (PET) facilitates the usage of these detectors in medical dosimetry, beam flux and beam profile measurements. Particularly interesting is its use when positioned directly on the flange of the vacuum-to-air separation interface in a beam line, as well as other applications where a thin self-standing radiation flux detector is envisaged. In this paper, the HASPIDE project will be described and some preliminary results on PI and glass substrates will be reported.
DOI:10.48550/arxiv.2211.17114