20 ps Time Resolution with a Fully-Efficient Monolithic Silicon Pixel Detector without Internal Gain Layer

20 ps Time Resolution with a Fully-Efficient Monolithic Silicon Pixel Detector without Internal Gain Layer

A second monolithic silicon pixel prototype was produced for the MONOLITH project. The ASIC contains a matrix of hexagonal pixels with 100 {\mu}m pitch, readout by a low-noise and very fast SiGe HBT frontend electronics. Wafers with 50 {\mu}m thick epilayer of 350 {\Omega}cm resistivity were used to...

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Veröffentlicht in:arXiv.org 2023-01
Hauptverfasser: Zambito, S, Milanesio, M, Moretti, T, Paolozzi, L, Munker, M, Cardella, R, Kugathasan, T, Martinelli, F, Picardi, A, Elviretti, M, Rücker, H, Trusch, A, Cadoux, F, Cardarelli, R, Débieux, S, Favre, Y, Fenoglio, C A, Ferrere, D, Gonzalez-Sevilla, S, Iodice, L, Kotitsa, R, Magliocca, C, Nessi, M, Pizarro-Medina, A, J Sabater Iglesias, Saidi, J, M Vicente Barreto Pinto, Iacobucci, G
Format: Artikel
Sprache:eng
Schlagworte:
Design optimization
Electronics
Physics - Instrumentation and Detectors
Pixels
Prototypes
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Zusammenfassung:A second monolithic silicon pixel prototype was produced for the MONOLITH project. The ASIC contains a matrix of hexagonal pixels with 100 {\mu}m pitch, readout by a low-noise and very fast SiGe HBT frontend electronics. Wafers with 50 {\mu}m thick epilayer of 350 {\Omega}cm resistivity were used to produce a fully depleted sensor. Laboratory and testbeam measurements of the analog channels present in the pixel matrix show that the sensor has a 130 V wide bias-voltage operation plateau at which the efficiency is 99.8%. Although this prototype does not include an internal gain layer, the design optimised for timing of the sensor and the front-end electronics provides a time resolutions of 20 ps.
ISSN:2331-8422
DOI:10.48550/arxiv.2301.12244