Title :
Comparative Study of Si, Ge and InAs based Steep SubThreshold Slope Tunnel Transistors for 0.25V Supply Voltage Logic Applications
Author :
Mookerjea, Saurabh ; Datta, Suman
Author_Institution :
Dept. of Electr. Eng., Pennsylvania State Univ., University Park, PA
Abstract :
This paper examines the potential of double gate (DG) inter-band tunnel FETs (TFET) in 3 different material systems, Si, Ge and InAs, for logic circuit applications down to 0.25 V supply voltage (V<sub>CC</sub>). Based on two-dimensional numerical drift-diffusion simulations, we show that 30 nm gate length (LG) InAs (indium arsenide) based TFETs can achieve I<sub>on</sub>/I<sub>off</sub> of >4x10<sup>4</sup> with <1 ps intrinsic delay at 0.25 V V<sub>CC</sub>. The key features of the InAs TFETs are: (a) asymmetric source drain design to suppress the ambipolar leakage (b) use of a lower dielectric constant gate oxide (non high-K) and (c) high source side injection velocity at moderate electric fields. Thus, narrow bandgap semiconductor based DG TFETs provide a promising device option for ultra-low standby and dynamic power high-speed logic circuits operating under quarter volt supply voltages.
Keywords :
III-V semiconductors; MOSFET; elemental semiconductors; germanium; high-speed integrated circuits; indium compounds; logic circuits; narrow band gap semiconductors; permittivity; silicon; tunnel transistors; Ge; InAs; MOSFET; Si; ambipolar leakage; asymmetric source drain design; dielectric constant gate oxide; double gate inter-band tunnel FET; high-speed logic circuits; narrow bandgap semiconductor based TFET; source side injection velocity; steep subthreshold slope tunnel transistor; two-dimensional drift-diffusion simulation; voltage 0.25 V; Circuit simulation; Delay; Dielectric constant; Double-gate FETs; High K dielectric materials; High-K gate dielectrics; Indium; Logic circuits; Numerical simulation; Voltage;
Conference_Titel :
Device Research Conference, 2008
Conference_Location :
Santa Barbara, CA
Print_ISBN :
978-1-4244-1942-5
Electronic_ISBN :
1548-3770
DOI :
10.1109/DRC.2008.4800730
