High-performance 40nm gate length InSb p-channel compressively strained quantum well field effect transistors for low-power (VCC=0.5V) logic applications

High-performance 40nm gate length InSb p-channel compressively strained quantum well field effect transistors for low-power (VCC=0.5V) logic applications

This paper describes for the first time, a high-speed and low-power III-V p-channel QWFET using a compressively strained InSb QW structure. The InSb p-channel QW device structure, grown using solid source MBE, demonstrates a high hole mobility of 1,230 cm 2 /V-s. The shortest 40 nm gate length (L G...

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Hauptverfasser: Radosavljevic, M., Ashley, T., Andreev, A., Coomber, S.D., Dewey, G., Emeny, M.T., Fearn, M., Hayes, D.G., Hilton, K.P., Hudait, M.K., Jefferies, R., Martin, T., Pillarisetty, R., Rachmady, W., Rakshit, T., Smith, S.J., Uren, M.J., Wallis, D.J., Wilding, P.J., Chau, R.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Capacitive sensors
Doping
FETs
Gallium arsenide
III-V semiconductor materials
Image coding
Logic
MOSFETs
Transconductance
Voltage
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Zusammenfassung:This paper describes for the first time, a high-speed and low-power III-V p-channel QWFET using a compressively strained InSb QW structure. The InSb p-channel QW device structure, grown using solid source MBE, demonstrates a high hole mobility of 1,230 cm 2 /V-s. The shortest 40 nm gate length (L G ) transistors achieve peak transconductance (G m ) of 510 muS/mum and cut-off frequency (f T ) of 140 GHz at supply voltage of 0.5V. These represent the highest G m and fT ever reported for III-V p-channel FETs. In addition, effective hole velocity of this device has been measured and compared to that of the standard strained Si p-channel MOSFET.
ISSN:0163-1918
2156-017X
DOI:10.1109/IEDM.2008.4796798