Hydrogenated amorphous silicon (a-Si:H) can be produced by plasma-enhanced chemical vapor deposition (PECVD) of SiH4 (silane) mixed with hydrogen. The resulting material shows outstanding radiation hardness properties and can be deposited on a wide variety of substrates. Devices employing a-Si:H technologies have been used to detect many different kinds of radiation, namely, minimum ionizing particles (MIPs), X-rays, neutrons, and ions, as well as low-energy protons and alphas. However, the detection of MIPs using planar a-Si:H diodes has proven difficult due to their unsatisfactory S/N ratio arising from a combination of high leakage current, high capacitance, and limited charge collection efficiency (50% at best for a 30 µm planar diode). To overcome these limitations, the 3D-SiAm collaboration proposes employing a 3D detector geometry. The use of vertical electrodes allows for a small collection distance to be maintained while preserving a large detector thickness for charge generation. The depletion voltage in this configuration can be kept below 400 V with a consequent reduction in the leakage current. In this paper, following a detailed description of the fabrication process, the results of the tests performed on the planar p-i-n structures made with ion implantation of the dopants and with carrier selective contacts are illustrated.
Fabrication of a hydrogenated amorphous silicon detector in 3-d geometry and preliminary test on planar prototypes / Menichelli M.; Bizzarri M.; Boscardin M.; Caprai M.; Caricato A.P.; Cirrone G.A.P.; Crivellari M.; Cupparo I.; Cuttone G.; Dunand S.; Fano L.; Ali O.H.; Ionica M.; Kanxheri K.; Large M.; Maruccio G.; Monteduro A.G.; Moscatelli F.; Morozzi A.; Papi A.; Passeri D.; Petasecca M.; Rizzato S.; Rossi A.; Scorzoni A.; Servoli L.; Talamonti C.; Verzellesi G.; Wyrsch N.. - In: INSTRUMENTS. - ISSN 2410-390X. - ELETTRONICO. - 5:(2021), pp. 32-45. [10.3390/instruments5040032]
Fabrication of a hydrogenated amorphous silicon detector in 3-d geometry and preliminary test on planar prototypes
Cupparo I.;Maruccio G.;Moscatelli F.;Talamonti C.;
2021
Abstract
Hydrogenated amorphous silicon (a-Si:H) can be produced by plasma-enhanced chemical vapor deposition (PECVD) of SiH4 (silane) mixed with hydrogen. The resulting material shows outstanding radiation hardness properties and can be deposited on a wide variety of substrates. Devices employing a-Si:H technologies have been used to detect many different kinds of radiation, namely, minimum ionizing particles (MIPs), X-rays, neutrons, and ions, as well as low-energy protons and alphas. However, the detection of MIPs using planar a-Si:H diodes has proven difficult due to their unsatisfactory S/N ratio arising from a combination of high leakage current, high capacitance, and limited charge collection efficiency (50% at best for a 30 µm planar diode). To overcome these limitations, the 3D-SiAm collaboration proposes employing a 3D detector geometry. The use of vertical electrodes allows for a small collection distance to be maintained while preserving a large detector thickness for charge generation. The depletion voltage in this configuration can be kept below 400 V with a consequent reduction in the leakage current. In this paper, following a detailed description of the fabrication process, the results of the tests performed on the planar p-i-n structures made with ion implantation of the dopants and with carrier selective contacts are illustrated.File | Dimensione | Formato | |
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