Title :
Quantum-mechanical modeling of phonon-limited electron mobility in bulk MOSFETs, ultrathin-body SOI MOSFETs and double-gate MOSFETs for different orientations
Author :
M. Poljak;V. Jovanović;T. Suligoj
Author_Institution :
Department of Electronics, Microelectronics, Computer and Intelligent Systems, Faculty of Electrical Engineering and Computing - University of Zagreb, Unska 3, HR-10000, Croatia
Abstract :
A comprehensive study of low-field phonon-limited mobility behavior with downscaling of silicon body thickness in ultrathin-body SOI MOSFETs and double-gate MOSFETs is presented. Phonon-limited mobility is obtained by self-consistent Schrödinger-Poisson simulations and momentum relaxation rate calculations. Single- and double-gate devices with (100), (110) and (111) active surfaces and body thickness down to 2 nm are investigated. Physical mechanisms which govern mobility behavior are studied by calculating form factors and ladder/subband occupancy.
Keywords :
"MOSFETs","Electron mobility","Optical scattering","Acoustic scattering","Particle scattering","Poisson equations","Silicon","Quantum computing","Phonons","Schrodinger equation"
Conference_Titel :
MIPRO, 2010 Proceedings of the 33rd International Convention
Print_ISBN :
978-1-4244-7763-0
