Title :
Gate-All-Around Junctionless Nanowire MOSFET With Improved Low-Frequency Noise Behavior
Author :
Singh, Pushpapraj ; Singh, Navab ; Miao, Jianmin ; Park, Woo-Tae ; Kwong, Dim-Lee
Abstract :
We present n-type gate-all-around (GAA) junctionless nanowire field-effect transistor (JL-NWFET) along with low-frequency noise (LFN) with respect to channel doping and the gate bias voltage. Irrespective of doping level in the channel, which is the same as that of source/drain, the JL-NWFET shows approximately five orders of magnitude lower spectral noise than the inversion-mode counterpart. LFN in JL-NWFET is also found less sensitive to gate bias voltage and to the frequency. The superior LFN behavior in GAA JL-NWFET is attributed to the conduction of carriers inside the uniformly doped nanowire channel. JL-NWFET-based sensing elements can thus be suitable in physical transducers to maximize the detection limits.
Keywords :
MOSFET; nanowires; GAA; JL-NWFET; LFN; channel doping; gate bias voltage; gate-all-around junctionless nanowire MOSFET; inversion-mode counterpart; low-frequency noise; low-frequency noise behavior; n-type gate-all-around junctionless nanowire field-effect transistor; physical transducers; Doping; Logic gates; Low-frequency noise; Nanobioscience; Nanowires; Transistors; Gate-all-around (GAA); junctionless (JL); low-frequency noise (LFN); nanowire field-effect transistor (NWFET);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2011.2169645
