Title :
The Impact of Substrate Bias on the Steep Subthreshold Slope in Junctionless MuGFETs
Author :
Seung Min Lee ; Jong Tae Park
Author_Institution :
Dept. of Electron. Eng., Incheon Nat. Univ., Incheon, South Korea
Abstract :
The impact of substrate bias VBS on the steep subthreshold slope (S-slope) in junctionless (JL) multiple gate MOSFETs has been analyzed experimentally. JL transistors with fin width of 40 nm and five parallel fins exhibit an S-slope of 20 mV/decade and an ON/OFF current ratio of up to 4.5×104 at VDS=1.6 V and VBS=0 V. The S-slopes were decreased due to an increase of impact ionization as the positive VBS increased. When VBS is increased from 0 to 25 V, the S-slope is decreased from 20 to 6 mV/decade. The supply voltage can be reduced with the application of a positive VBS. The dependence of the steep S-slope on VBS been analyzed for different fin widths and fin numbers. To evaluate the device reliability of JL transistor, the shifts in the threshold voltages and the S-slopes were measured. 3-D device simulations have been performed to explain the measured results.
Keywords :
MOSFET; semiconductor device reliability; substrates; 3D device simulations; JL multiple gate MOSFET; JL transistor device reliability; VBS; impact ionization; junctionless MuGFET; parallel fins; size 40 nm; steep S-slope dependence; steep subthreshold slope; substrate bias impact; voltage 0 V; voltage 1.6 V; Impact ionization; Logic gates; Semiconductor process modeling; Substrates; Threshold voltage; Transistors; Voltage measurement; Device degradation; junctionless (JL) transistor; subthreshold slope (S-slope);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2280275
