Title :
Two-dimensional analytical threshold voltage model for DMG Epi-MOSFET
Author :
Goel, K. ; Saxena, M. ; Gupta, M. ; Gupta, R.S.
Author_Institution :
Dept. of Electron. Sci., Univ. of Delhi, New Delhi, India
Abstract :
A two-dimensional (2-D) analytical model of a dual material gate (DMG) epitaxial (Epi)-MOSFET for improved, SCEs, hot electron effects, and carrier transport efficiency is presented. Using a two-region polynomial potential distribution and a universal boundary condition, we calculated the 2-D potential and electric field distribution along the channel. An expression for threshold voltage for short-channel DMG Epi-MOSFETs is also derived. The ratio of gate lengths has been varied to show which gate length ratio gives the best performance. The analytical results have been validated by the 2-D device simulator ATLAS over a wide range of device parameters and bias conditions.
Keywords :
MOSFET; electric fields; epitaxial layers; semiconductor device models; transport processes; 2D analytical threshold voltage model; 2D device simulator ATLAS; 2D potential; DMG epi-MOSFET; carrier transport efficiency; dual material gate epitaxial MOSFET; electric field distribution; hot electron effect; short channel effect; two-region polynomial potential distribution; universal boundary condition; Electric fields; Epitaxial layers; MOSFETs; Semiconductor device modeling; Carrier transport efficiency; SCEs (SCEs); dual material gate (DMG) epitaxial (Epi)-MOSFET;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2004.841276
