Title :
Inverters With Strained Si Nanowire Complementary Tunnel Field-Effect Transistors
Author :
Knoll, Lars ; Qing-Tai Zhao ; Nichau, A. ; Trellenkamp, Stefan ; Richter, Simon ; Schafer, Andreas ; Esseni, David ; Selmi, Luca ; Bourdelle, Konstantin K. ; Mantl, Siegfried
Author_Institution :
Peter Grunberg Inst., Forschungszentrum Julich, Julich, Germany
Abstract :
Inverters based on uniaxially tensile strained Si (sSi) nanowire (NW) tunneling field-effect transistors (TFETs) are fabricated. Tilted dopant implantation using the gate as a shadow mask allows self-aligned formation of p-i-n TFETs. The steep junctions formed by dopant segregation at low temperatures improve the band-to-band tunneling, resulting in higher on-currents of n- and p-TFETs of > 10 μA/μm at VDS=0.5 V. The subthreshold slope for n-channel TFETs reaches a minimum value of 30 mV/dec, and is <; 60 mV/dec over one order of magnitude of drain current. The first sSi NW complementary TFET inverters show sharp transitions and fairly high static gain even at very lowVDD=0.2 V. The first transient response analysis of the inverters shows clear output voltage overshoots and a fall time of 2 ns at VDD=1.0 V.
Keywords :
elemental semiconductors; field effect transistors; invertors; nanowires; silicon; transient response; tunnel transistors; Si; band-to-band tunneling; dopant segregation; n-TFET; p-TFET; p-i-n TFET; self-aligned formation; shadow mask; strained nanowire complementary tunnel field-effect transistors; tilted dopant implantation; time 2 ns; transient response analysis; uniaxially tensile NW complementary TFET inverters; voltage 0.2 V; voltage 0.5 V; voltage 1.0 V; Inverter; strained Si (sSi) nanowire; subthreshold slope; tunnel-FET;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2013.2258652
