| [1] | E. Trifonova, M. Caselle, F. Ehrler, A. F. Elsenhans, G. Iacobucci, A. Kopmann, L. Paolozzi, M. M. Patil, I. Perić, and M. Weber. Novel high-speed monolithic silicon detector for particle physics. JINST, 18(05):C05011, 2023. [ bib | DOI ] |
| [2] |
Gennaro Termo, Giulio Borghello, Federico Faccio, Kostas Kloukinas, Michele
Caselle, Alexander Friedrich Elsenhans, Ahmet Cagri Ulusoy, Adil Koukab, and
Jean-Michel Sallese.
Characteristics and ultra-high total ionizing dose response of 22 nm
fully depleted silicon-on-insulator.
Journal of Instrumentation, 19(03):C03039, mar 2024.
[ bib |
DOI |
http ]
The radiation response of MOS transistors in a 22 nm Fully Depleted Silicon-On-Insulator (FDSOI) technology exposed to ultra-high total ionizing dose (TID) was investigated. Custom structures including n- and p-channel devices with different sizes and threshold voltage flavours were irradiated with X-rays up to a TID of 100 Mrad(SiO2) with different back-gate bias configurations, from -8 V to 2 V. The investigation revealed that the performance is significantly affected by TID, with the radiation response being dominated by the charge trapped in the buried oxide.
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