Title :
A Three-Dimensional Simulation Study of the Performance of Carbon Nanotube Field-Effect Transistors With Doped Reservoirs and Realistic Geometry
Author :
Fiori, Gianluca ; Iannaccone, Giuseppe ; Klimeck, Gerhard
Author_Institution :
Dipt. di Ingegneria dell´´Informazione, Pisa Univ.
Abstract :
This paper simulates the expected device performance and scaling perspectives of carbon nanotube (CNT) field-effect transistors with doped source and drain extensions. The simulations are based on the self-consistent solution of the three-dimensional Poisson-Schroumldinger equation with open boundary conditions, within the nonequilibrium Green´s function formalism, where arbitrary gate geometry and device architecture can be considered. The investigation of short channel effects for different gate configurations and geometry parameters shows that double-gate devices offer quasi-ideal subthreshold slope and drain-induced barrier lowering without extremely thin gate dielectrics. Exploration of devices with parallel CNTs shows that on currents per unit width can be significantly larger than the silicon counterpart, while high-frequency performance is very promising
Keywords :
Green´s function methods; Poisson equation; Schrodinger equation; carbon nanotubes; field effect transistors; nanotube devices; semiconductor device models; Green function formalism; Poisson-Schrodinger equation; ballistic transport; carbon nanotube performance; doped reservoirs; doped source; double-gate device; drain extensions; drain-induced barrier lowering; field-effect transistors; realistic geometry; subthreshold slope; Boundary conditions; CNTFETs; Carbon nanotubes; Dielectric devices; FETs; Geometry; Green´s function methods; Poisson equations; Reservoirs; Solid modeling; Ballistic transport; carbon nanotubes (CNTs); nonequilibrium Green´s function (NEGF); technology computer-aided design (CAD);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2006.878018
