TY - JOUR
T1 - ON current enhancement of nanowire Schottky barrier tunnel field effect transistors
AU - Takei, Kohei
AU - Hashimoto, Shuichiro
AU - Sun, Jing
AU - Zhang, Xu
AU - Asada, Shuhei
AU - Xu, Taiyu
AU - Matsukawa, Takashi
AU - Masahara, Meishoku
AU - Watanabe, Takanobu
N1 - Publisher Copyright:
© 2016 The Japan Society of Applied Physics.
PY - 2016/4
Y1 - 2016/4
N2 - Silicon nanowire Schottky barrier tunnel field effect transistors (NW-SBTFETs) are promising structures for high performance devices. In this study, we fabricated NW-SBTFETs to investigate the effect of nanowire structure on the device characteristics. The NW-SBTFETs were operated with a backgate bias, and the experimental results demonstrate that the ON current density is enhanced by narrowing the width of the nanowire. We confirmed using the Fowler-Nordheim plot that the drain current in the ON state mainly comprises the quantum tunneling component through the Schottky barrier. Comparison with a technology computer aided design (TCAD) simulation revealed that the enhancement is attributed to the electric field concentration at the corners of cross-section of the NW. The study findings suggest an effective approach to securing the ON current by Schottky barrier width modulation.
AB - Silicon nanowire Schottky barrier tunnel field effect transistors (NW-SBTFETs) are promising structures for high performance devices. In this study, we fabricated NW-SBTFETs to investigate the effect of nanowire structure on the device characteristics. The NW-SBTFETs were operated with a backgate bias, and the experimental results demonstrate that the ON current density is enhanced by narrowing the width of the nanowire. We confirmed using the Fowler-Nordheim plot that the drain current in the ON state mainly comprises the quantum tunneling component through the Schottky barrier. Comparison with a technology computer aided design (TCAD) simulation revealed that the enhancement is attributed to the electric field concentration at the corners of cross-section of the NW. The study findings suggest an effective approach to securing the ON current by Schottky barrier width modulation.
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U2 - 10.7567/JJAP.55.04ED07
DO - 10.7567/JJAP.55.04ED07
M3 - Article
AN - SCOPUS:84963690489
SN - 0021-4922
VL - 55
JO - Japanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes
JF - Japanese Journal of Applied Physics, Part 1: Regular Papers & Short Notes
IS - 4
M1 - 04ED07
ER -