Title :
nanoMOS 2.5: A two-dimensional simulator for quantum transport in double-gate MOSFETs
Author :
Ren, Zhibin ; Venugopal, Ramesh ; Goasguen, Sebastien ; Datta, Supriyo ; Lundstrom, Mark S.
Author_Institution :
IBM, Yorktown Heights, NY, USA
Abstract :
A program to numerically simulate quantum transport in double gate metal oxide semiconductor field effect transistors (MOSFETs) is described. The program uses a Green´s function approach and a simple treatment of scattering based on the idea of so-called Buttiker probes. The double gate device geometry permits an efficient mode space approach that dramatically lowers the computational burden and permits use as a design tool. Also implemented for comparison are a ballistic solution of the Boltzmann transport equation and the drift-diffusion approaches. The program is described and some examples of the use of nanoMOS for 10 nm double gate MOSFETs are presented.
Keywords :
Boltzmann equation; Green´s function methods; MOSFET; ballistic transport; nanoelectronics; semiconductor device models; 10 nm; Biittiker probe; Boltzmann transport equation; Green function; ballistic transport; carrier scattering; double-gate MOSFET; drift-diffusion transport; mode space model; nanoMOS 2.5; numerical simulation; quantum transport; two-dimensional simulator; Acoustic scattering; Boltzmann equation; Computational geometry; Double-gate FETs; MOSFETs; Numerical simulation; Particle scattering; Physics; Probes; Quantum computing;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2003.816524
