Title :
Fabrication of axially-doped silicon nanowire tunnel FETs and characterization of tunneling current
Author :
Vallett, Aaron L. ; Minassian, Sharis ; Datta, Suman ; Redwing, Joan M. ; Mayer, Theresa S.
Author_Institution :
Dept. of Electr. Eng., Pennsylvania State Univ., University Park, PA, USA
Abstract :
Recent interest in low-power electronics has sparked considerable interested in gate-controlled tunneling-based transistors (TFETs), which have demonstrated inverse subthreshold slopes (S) better than the MOSFET limit of 60 mV/dec. While the natural progression of these devices to nanoscale dimensions promises improved performance, there is a lack of experimental data regarding the physics of tunneling at reduced dimensions. Here we present a TFET fabricated from an individual axially-doped p+-n-n+ Si nanowire in a device layout that enables the study of tunneling physics as the wire dimensions are scaled to the 1D transport regime.
Keywords :
MOSFET; elemental semiconductors; field effect transistors; low-power electronics; nanowires; p-n junctions; semiconductor doping; tunnelling; MOSFET; TFET; axially-doped p+-n-n+ nanowire; axially-doped silicon nanowire tunnel FET; device layout; gate-controlled tunneling-based transistor; inverse subthreshold slope; low-power electronics; nanoscale dimension; tunneling current; tunneling physics; wire dimension; Dielectrics; Junctions; Logic gates; Nanoscale devices; Silicon; Tunneling;
Conference_Titel :
Device Research Conference (DRC), 2010
Conference_Location :
South Bend, IN
Print_ISBN :
978-1-4244-6562-0
Electronic_ISBN :
1548-3770
DOI :
10.1109/DRC.2010.5551962
