Destructive breakdown studies of irradiated LGADs at beam tests for the ATLAS HGTD

Destructive breakdown studies of irradiated LGADs at beam tests for the ATLAS HGTD

In the past years, it has been observed at several beam test campaigns that irradiated LGAD sensors break with a typical star shaped burn mark when operated at voltages much lower than those at which they were safely operated during laboratory tests. The study presented in this paper was designed to...

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Veröffentlicht in:Journal of instrumentation 2023-07, Vol.18 (7), p.P07030
Hauptverfasser: Beresford, L.A., Boumediene, D.E., Castillo García, L., Corpe, L.D., Da Cunha Sargedas de Sousa, M.J., El Jarrari, H., Eshkevarvakili, A., Grieco, C., Grinstein, S., Guindon, S., Howard, A., Kramberger, G., Kurdysh, O., Mazini, R., Missio, M., Morenas, M., Perrin, O., Raskina, V., Saito, G., Trincaz-Duvoid, S.
Format: Artikel
Sprache:eng
Schlagworte:
Instrumentation and Detectors
Laboratory tests
Physics
Sensors
Solid state detectors
Synchrotrons
Timing detectors
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Zusammenfassung:In the past years, it has been observed at several beam test campaigns that irradiated LGAD sensors break with a typical star shaped burn mark when operated at voltages much lower than those at which they were safely operated during laboratory tests. The study presented in this paper was designed to determine the safe operating voltage that these sensors can withstand. Many irradiated sensors from various producers were tested in two test beam facilities, DESY (Hamburg) and CERN-SPS (Geneva), as part of ATLAS High Granularity Timing Detector (HGTD) beam tests. The samples were placed in the beam and kept under bias over a long period of time in order to reach a high number of particles crossing each sensor. Both beam tests lead to a similar conclusion, that these destructive events begin to occur when the average electric field in the sensor becomes larger than 12 V/μm.
ISSN:1748-0221
1748-0221
DOI:10.1088/1748-0221/18/07/P07030