We present first results obtained with a prototype 4D-tracking demonstrator, using sensors and electronics developed within the TimeSPOT project, and tested on a positive charged pion beam at CERN SPS. The setup consists of five small tracking layers in a row, having area of about 3mm2 each, three of which equipped with 3D-trench silicon sensors and two with 3D-column diamond sensors. The five layers are then read-out by a KC705 Xilinx board on a PC. We describe the demonstrator structure and operation and illustrate preliminary results on its tracking capabilities.
A prototype 4D-tracking demonstrator based on the TimeSPOT developments / Loi, A.; Addison, M.; Anderlini, L.; Brundu, D.; Boscardin, M.; Cadeddu, S.; Cardini, A.; Cossu, G. M.; Dalla Betta, G. -F.; Frontini, L.; Garau, M.; Lai, A.; La Delfa, L.; Lampis, A.; Liberali, V.; Passaleva, G.; Piccolo, L.; Ronchin, S.; Stabile, A.; Veltri, M.. - In: JOURNAL OF INSTRUMENTATION. - ISSN 1748-0221. - ELETTRONICO. - 19:02(2024). [10.1088/1748-0221/19/02/c02069]
A prototype 4D-tracking demonstrator based on the TimeSPOT developments
Boscardin, M.;Dalla Betta, G. -F.;Lai, A.;Ronchin, S.;
2024-01-01
Abstract
We present first results obtained with a prototype 4D-tracking demonstrator, using sensors and electronics developed within the TimeSPOT project, and tested on a positive charged pion beam at CERN SPS. The setup consists of five small tracking layers in a row, having area of about 3mm2 each, three of which equipped with 3D-trench silicon sensors and two with 3D-column diamond sensors. The five layers are then read-out by a KC705 Xilinx board on a PC. We describe the demonstrator structure and operation and illustrate preliminary results on its tracking capabilities.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione
