Title :
Ballistic quantum transport in nano-scale Schottky barrier tunnel transistors
Author :
Ahn, Chiyui ; Shin, Mincheol
Author_Institution :
Inf. & Commun. Univ., Daejeon, South Korea
Abstract :
Nanoscale Schottky barrier tunnel transistors (SBTTs) are investigated by solving the two-dimensional Poisson equation self-consistently with ballistic quantum transport equations. We have analyzed the device characteristics of SBTT by varying the device parameters such as the channel length, tunnel barrier height, and gate insulator dielectric constant. We have found that on-current is almost independent of the channel length while off-current drastically increases as the channel length becomes shorter than around 15 nm. Discussions on avoiding such large off-current are presented, in terms of adjusting the Schottky barrier height and using a gate insulator with high dielectric constant.
Keywords :
Poisson equation; Schottky gate field effect transistors; ballistic transport; nanoelectronics; permittivity; semiconductor device models; tunnel transistors; Schottky barrier height; ballistic quantum transport; channel length; device characteristics; device parameters; dielectric constant; gate insulator; gate insulator dielectric constant; nanoscale Schottky barrier tunnel transistors; off-current; on-current; tunnel barrier height; two-dimensional Poisson equation; Dielectric constant; Dielectrics and electrical insulation; Electrons; FETs; Fluctuations; MOSFETs; Nanoscale devices; Poisson equations; Schottky barriers; Silicon on insulator technology;
Conference_Titel :
Nanotechnology, 2005. 5th IEEE Conference on
Print_ISBN :
0-7803-9199-3
DOI :
10.1109/NANO.2005.1500824
