Elementary scattering theory of the Si MOSFET
- 1 July 1997
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Electron Device Letters
- Vol. 18 (7) , 361-363
- https://doi.org/10.1109/55.596937
Abstract
A simple one-flux scattering theory of the silicon MOSFET is introduced. Current-voltage (I-V) characteristics are expressed in terms of scattering parameters rather than a mobility. For long-channel transistors, the results reduce to conventional drift-diffusion theory, but they also apply to devices in which the channel length is comparable to or even shorter than the mean-free-path. The results indicate that for very short channels the transconductance is limited by carrier injection from the source. The theory also indicates that evaluation of the drain current in short-channel MOSFETs is a near-equilibrium transport problem, even though the channel electric field is large in magnitude and varies rapidly in space.Keywords
This publication has 18 references indexed in Scilit:
- Drain current enhancement due to velocity overshoot effects and its analytic modelingIEEE Transactions on Electron Devices, 1996
- Solution of electromagnetic inverse problem using combinational method of Hopfield neural network and genetic algorithmJournal of Applied Physics, 1996
- A flux-based study of carrier transport in thin-base diodes and transistorsIEEE Transactions on Electron Devices, 1995
- A compact HBT device model based on a one-flux treatment of carrier transportSolid-State Electronics, 1994
- Saturation transconductance of deep-submicron-channel MOSFETsSolid-State Electronics, 1993
- Approaches to ScalingPublished by Elsevier ,1989
- An Ebers-Moll model for the heterostructure bipolar transistorSolid-State Electronics, 1986
- Transport theory of the double heterojunction bipolar transistor based on current balancing conceptJournal of Applied Physics, 1986
- Two-dimensional analysis of velocity overshoot effects in ultrashort-channel Si MOSFET'sIEEE Transactions on Electron Devices, 1985
- Chapter 4 Monte Carlo Calculation of Electron Transport in SolidsPublished by Elsevier ,1979