Title :
Optimal design and coulomb blockade suppressed leakage of carbon nanotube transistors
Author :
Alam, Khairul ; Lake, Roger
Author_Institution :
Dept. of Electr. Eng., California Univ., Riverside, CA
Abstract :
We consider a 1.5 nm diameter (19,0) CNT for which zero-Schottky-barrier contacts have been demonstrated. The model device has a wrap-around gate, 2 nm ZrO2 dielectric, and the Fermi level of the metal contacts aligned with the conduction band of the source and drain. A number of different CNT lengths with various source/drain asymmetry are studied. A 40 nm length CNT with a 10 nm gate shows excellent performance as quantified below. We numerically calculate the gate delay (taus = C9VDD/ION), ON/OFF current ratio, and inverse subthreshold slope as a function of source to gate underlap L exS
Keywords :
Coulomb blockade; Fermi level; Schottky diodes; carbon nanotubes; transistors; 1.5 nm; 10 nm; 40 nm; CNT; Coulomb blockade; Fermi level; ON/OFF current ratio; Schottky barrier contacts; carbon nanotube transistors; gate delay; metal contacts; source/drain asymmetry; wrap around gate; Analytical models; Capacitance; Carbon nanotubes; Charge carrier processes; Delay; Green function; Lakes; Leakage current; Poisson equations; Tunneling;
Conference_Titel :
Device Research Conference Digest, 2005. DRC '05. 63rd
Conference_Location :
Santa Barbara, CA
Print_ISBN :
0-7803-9040-7
DOI :
10.1109/DRC.2005.1553106
