Open AccessTunable piezoresistance and noise in gate-all-around nanowire field-effect-transistor
Author(s) -
Pushpapraj Singh,
Woo-Tae Park,
Jianmin Miao,
Lichun Shao,
Rama Krishna Kotlanka,
Dim-Lee Kwong
Publication year - 2012
Publication title -
applied physics letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.182
H-Index - 442
eISSN - 1077-3118
pISSN - 0003-6951
DOI - 10.1063/1.3683516
Subject(s) - piezoresistive effect , materials science , noise (video) , optoelectronics , nanowire , infrasound , field effect transistor , transistor , electrical engineering , acoustics , voltage , physics , computer science , artificial intelligence , image (mathematics) , engineering
The piezoresistance and noise of n-type gate-all-around nanowire field-effect-transistor (NWFET) is investigated as a function of gate bias. With narrow gate bias span of 0.6 V near threshold region, the piezoresistive coefficient of NWFET enhances up to seven times from 29 × 10−11 Pa−1 to 207 × 10−11 Pa−1 under compressive and tensile strain conditions. Results reveal that the low frequency noise is reduced when operated in subthreshold region. The higher piezoresistive coefficient and reduced noise improve the sensor resolution (minimum detectable strain) by sixteen times. NWFET operates at low bias with higher piezoresistance and signal-to-noise ratio and offers promising applications in strain sensors.
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