The DC performance of both n- and pMOSFETs fabricated in a commercial-grade 28 nm bulk CMOS process has been studied up to 1 Grad of total ionizing dose and at post-irradiation annealing. The aim is to assess the potential use of such an advanced CMOS technology in the forthcoming upgrade of the Large Hadron Collider at CERN. The total ionizing dose effects show limited influence in the drive current of all the tested nMOSFETs. Nonetheless, the leakage current increases significantly, affecting the normal device operation of the nMOSFETs. These phenomena can be linked to the charge trapping in the oxides and at the Si/oxide interfaces, related to both the gate oxide and the shallow trench isolation oxide. In addition, it has been observed that the radiation-induced effects are partly recovered by the long-term post-irradiation annealing. To quantify the total ionizing dose effects on DC characteristics, the threshold voltage, subthreshold swing, and drain induced barrier lowering have also been extracted for nMOSFETs.

Zhang, C., Jazaeri, F., Pezzotta, A., Bruschini, C., Borghello, G., Faccio, F., et al. (2017). GigaRad total ionizing dose and post-irradiation effects on 28 nm bulk MOSFETs. In 2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop, NSS/MIC/RTSD 2016 (pp.1-4). Institute of Electrical and Electronics Engineers Inc. [10.1109/NSSMIC.2016.8069869].

GigaRad total ionizing dose and post-irradiation effects on 28 nm bulk MOSFETs

Pezzotta, A.;Baschirotto, A.;
2017

Abstract

The DC performance of both n- and pMOSFETs fabricated in a commercial-grade 28 nm bulk CMOS process has been studied up to 1 Grad of total ionizing dose and at post-irradiation annealing. The aim is to assess the potential use of such an advanced CMOS technology in the forthcoming upgrade of the Large Hadron Collider at CERN. The total ionizing dose effects show limited influence in the drive current of all the tested nMOSFETs. Nonetheless, the leakage current increases significantly, affecting the normal device operation of the nMOSFETs. These phenomena can be linked to the charge trapping in the oxides and at the Si/oxide interfaces, related to both the gate oxide and the shallow trench isolation oxide. In addition, it has been observed that the radiation-induced effects are partly recovered by the long-term post-irradiation annealing. To quantify the total ionizing dose effects on DC characteristics, the threshold voltage, subthreshold swing, and drain induced barrier lowering have also been extracted for nMOSFETs.
paper
28 nm bulk CMOS; Annealing; Gate oxide; HL-LHC; Shallow trench isolation; TID; Total ionizing dose; Radiology, Nuclear Medicine and Imaging; Instrumentation; Nuclear and High Energy Physics; Electronic, Optical and Magnetic Materials
English
2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop, NSS/MIC/RTSD 2016 OCT 29-NOV 06
2016
Zhang, C-M
2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop, NSS/MIC/RTSD 2016
9781509016426
2017
2017-
1
4
8069869
none
Zhang, C., Jazaeri, F., Pezzotta, A., Bruschini, C., Borghello, G., Faccio, F., et al. (2017). GigaRad total ionizing dose and post-irradiation effects on 28 nm bulk MOSFETs. In 2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop, NSS/MIC/RTSD 2016 (pp.1-4). Institute of Electrical and Electronics Engineers Inc. [10.1109/NSSMIC.2016.8069869].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/191736
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