Experimental investigation of effect of channel doping concentration on random telegraph signal noise

Kenichi Abe; Akinobu Teramoto; Shunichi Watabe; Takafumi Fujisawa; Shigetoshi Sugawa; Yutaka Kamata; Katsuhiko Shibusawa; Tadahiro Ohmi

doi:10.1143/JJAP.49.04DC07

Experimental investigation of effect of channel doping concentration on random telegraph signal noise

Kenichi Abe, Akinobu Teramoto, Shunichi Watabe, Takafumi Fujisawa, Shigetoshi Sugawa, Yutaka Kamata, Katsuhiko Shibusawa, Tadahiro Ohmi

New Industry Creation Hatchery Center (NICHe)

Research output: Contribution to journal › Article › peer-review

28 Citations (Scopus)

Abstract

Random telegraph signal (RTS) noise has become one of the most important problems in the continuous scaling down of field-effect transistors (FETs). In this study, we investigate experimentally the relationship between RTS amplitude and channel doping concentration (NA), which is a key parameter related to threshold voltage adjustment and short-channel effects, in 393,216 n-type FETs by a high-speed measurement method. We demonstrate that NA has a significant effect on RTS amplitude even at approximately the same interface and bulk trap densities of the gate insulator films, which are evaluated by the charge pumping method, by the quasi-static capacitance-voltage method, and on the basis of 1=f noise characteristics. An increase in RTS amplitude may arise from a more advanced channel nonuniformity as NA increases.

Original language	English
Article number	04DC07
Journal	Japanese Journal of Applied Physics
Volume	49
Issue number	4 PART 2
DOIs	https://doi.org/10.1143/JJAP.49.04DC07
Publication status	Published - 2010 Apr

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AU - Abe, Kenichi

AU - Teramoto, Akinobu

AU - Watabe, Shunichi

AU - Fujisawa, Takafumi

AU - Sugawa, Shigetoshi

AU - Kamata, Yutaka

AU - Shibusawa, Katsuhiko

AU - Ohmi, Tadahiro

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AB - Random telegraph signal (RTS) noise has become one of the most important problems in the continuous scaling down of field-effect transistors (FETs). In this study, we investigate experimentally the relationship between RTS amplitude and channel doping concentration (NA), which is a key parameter related to threshold voltage adjustment and short-channel effects, in 393,216 n-type FETs by a high-speed measurement method. We demonstrate that NA has a significant effect on RTS amplitude even at approximately the same interface and bulk trap densities of the gate insulator films, which are evaluated by the charge pumping method, by the quasi-static capacitance-voltage method, and on the basis of 1=f noise characteristics. An increase in RTS amplitude may arise from a more advanced channel nonuniformity as NA increases.

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Experimental investigation of effect of channel doping concentration on random telegraph signal noise

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