Low-Frequency and Random Telegraph Noise in 14-nm Bulk Si Charge-Trap Transistors

Mariia Gorchichko,En Xia Zhang,Mahmud Reaz,Kan Li,Peng Fei Wang,Jingchen Cao,Rachel M. Brewer,Ronald D. Schrimpf,Robert A. Reed,Brian D. Sierawski,Michael L. Alles,Jonathan Cox,Steven L. Moran,Subramanian S. Iyer,Daniel M. Fleetwood

IEEE Transactions on Electron Devices（2023）

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摘要

Effects of programming/erasing (P/E) and total-ionizing dose (TID) are investigated on 2- and 40-fin charge-trap transistors (CTTs) fabricated in a 14-nm bulk-Si CMOS technology. Significant random telegraph noise (RTN) is observed in as-processed CTTs, especially for 2-fin devices. Trapped charge in programed devices does not significantly affect 1/

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noise magnitudes, but P/E leads to trap activation/deactivation, causing changes in border-trap energy and spatial distributions. TID irradiation activates a large number of stable radiation-induced traps.

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关键词

1/f noise, charge trap transistor (CTT), defects, finFET, HfO2, low-frequency noise (LFN), random telegraph noise (RTN), random telegraph signal (RTS), total-ionizing dose (TID)

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