High-Performance Pi-Gate Poly-Si Junctionless and Inversion Mode FET

In this paper, the Pi-gate (PG) poly-Si junction-less (JL) and inversion mode (IM) FETs with a high aspect ratio (A.R. = channel thickness/channel width ~ 3.4) have been successfully fabricated and demonstrated by a method without using the costly lithography technique. This method has some advantag...

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Published in:IEEE transactions on electron devices 2016-11, Vol.63 (11), p.4179-4184
Main Authors: Hsieh, Dong-Ru, Lin, Jer-Yi, Kuo, Po-Yi, Chao, Tien-Sheng
Format: Article
Language:English
Subjects:
3-D integrated circuits (ICs)
Immune system
Integrated circuits
inversion mode (IM)
Iron
junctionless (JL)
Logic gates
Performance evaluation
Pi-gate (PG)
poly-Si
Resistance
Silicon
Silicon nitride
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creator Hsieh, Dong-Ru
Lin, Jer-Yi
Kuo, Po-Yi
Chao, Tien-Sheng
description In this paper, the Pi-gate (PG) poly-Si junction-less (JL) and inversion mode (IM) FETs with a high aspect ratio (A.R. = channel thickness/channel width ~ 3.4) have been successfully fabricated and demonstrated by a method without using the costly lithography technique. This method has some advantages: 1) the thickness of channels can be controlled simply by thickness of poly-Si layer; 2) the shape of channels can be controlled effectively by rectangular silicon nitride (Si 3 N 4 ) as hard masks; 3) the series resistance can be reduced by raised source/drain configurations; and 4) Si-compatible low thermal budget process. The PG polySi JL FETs show excellent electrical performance in terms of low gate overdrive voltage (VG-VTH = 2 V), extremely near ideal subthreshold swing (S.S.) ~68 mV/decade, steep average subthreshold swing (A.S.S.) ~ 73 mV/decade, smaller drain induced barrier lowering ~9 mV/V, a higher ON/OFF current ratio ~ 1.1 × 10 8 (VD = 1 V), and a better field-effect mobility (μFE) ~ 35 (cm 2 /Vs) as compared with PG poly-Si IM FETs. Thus, these devices are very promising for future 3-D integrated circuits applications.
doi_str_mv 10.1109/TED.2016.2611021
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This method has some advantages: 1) the thickness of channels can be controlled simply by thickness of poly-Si layer; 2) the shape of channels can be controlled effectively by rectangular silicon nitride (Si 3 N 4 ) as hard masks; 3) the series resistance can be reduced by raised source/drain configurations; and 4) Si-compatible low thermal budget process. The PG polySi JL FETs show excellent electrical performance in terms of low gate overdrive voltage (VG-VTH = 2 V), extremely near ideal subthreshold swing (S.S.) ~68 mV/decade, steep average subthreshold swing (A.S.S.) ~ 73 mV/decade, smaller drain induced barrier lowering ~9 mV/V, a higher ON/OFF current ratio ~ 1.1 × 10 8 (VD = 1 V), and a better field-effect mobility (μFE) ~ 35 (cm 2 /Vs) as compared with PG poly-Si IM FETs. 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source IEEE Electronic Library (IEL) Journals
subjects 3-D integrated circuits (ICs)
Immune system
Integrated circuits
inversion mode (IM)
Iron
junctionless (JL)
Logic gates
Performance evaluation
Pi-gate (PG)
poly-Si
Resistance
Silicon
Silicon nitride
title High-Performance Pi-Gate Poly-Si Junctionless and Inversion Mode FET
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