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Inicio  /  Instruments  /  Vol: 5 Par: 4 (2021)  /  Artículo
ARTÍCULO
TITULO

Fabrication of a Hydrogenated Amorphous Silicon Detector in 3-D Geometry and Preliminary Test on Planar Prototypes

Mauro Menichelli    
Marco Bizzarri    
Maurizio Boscardin    
Mirco Caprai    
Anna Paola Caricato    
Giuseppe Antonio Pablo Cirrone    
Michele Crivellari    
Ilaria Cupparo    
Giacomo Cuttone    
Silvain Dunand    
Livio Fanò    
Omar Hammad Alì    
Maria Ionica    
Keida Kanxheri    
Matthew Large    
Giuseppe Maruccio    
Anna Grazia Monteduro    
Francesco Moscatelli    
Arianna Morozzi    
Andrea Papi    
Daniele Passeri    
Marco Petasecca    
Silvia Rizzato    
Alessandro Rossi    
Andrea Scorzoni    
Leonello Servoli    
Cinzia Talamonti    
Giovanni Verzellesi and Nicolas WyrschaddShow full author listremoveHide full author list    

Resumen

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.

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