Title :
Leakage-Reduction Design Concepts for Low-Power Vertical Tunneling Field-Effect Transistors
Author :
Agarwal, Samarth ; Klimeck, Gerhard ; Luisier, Mathieu
Author_Institution :
Network for Comput. Nanotechnol., Purdue Univ., West Lafayette, IN, USA
fDate :
6/1/2010 12:00:00 AM
Abstract :
Using an atomistic full-band quantum transport solver, we investigate the performances of vertical band-to-band tunneling FETs (TFETs) whose operation is based on the enhancement of the gate-induced drain leakage mechanism of MOSFETs, and we compare them to lateral p-i-n devices. Although the vertical TFETs offer larger tunneling areas and therefore larger on currents than their lateral counterparts, they suffer from lateral source-to-drain tunneling leakage away from the gate contact. We propose a design improvement to reduce the off current of the vertical TFETs, maintain large on currents, and provide steep subthreshold slopes.
Keywords :
MOSFET circuits; field effect transistors; tunnelling; MOSFET; atomistic full-band quantum transport solver; gate-induced drain leakage mechanism; lateral source-to-drain tunneling leakage; leakage-reduction design; low-power vertical tunneling field-effect transistors; vertical band-to-band TFET; Band-to-band tunneling transistors; full-band and atomistic quantum transport; steep subthreshold;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2010.2046011
