Title :
An Improved Virtual-Source-Based Transport Model for Quasi-Ballistic Transistors—Part I: Capturing Effects of Carrier Degeneracy, Drain-Bias Dependence of Gate Capacitance, and Nonlinear Channel-Access Resistance
Author :
Rakheja, Shaloo ; Lundstrom, Mark S. ; Antoniadis, Dimitri A.
Author_Institution :
Dept. of Electr. & Comput. Eng., New York Univ., New York, NY, USA
Abstract :
In this paper, an improved physics-based virtual-source (VS) model to describe transport in quasi-ballistic transistors is discussed. The model is based on the Landauer scattering theory, and incorporates the effects of: 1) degeneracy on thermal velocity and mean free path of carriers in the channel; 2) drain-bias dependence of gate capacitance and VS charge, including the effects of band nonparabolicity; and 3) nonlinear resistance of the extrinsic device region on gm -degradation at high drain currents in the channel. The improved charge model captures the phenomenon of reduction in VS charge under nonequilibrium transport conditions in a quasi-ballistic transistor.
Keywords :
semiconductor device models; transistors; Landauer scattering theory; band nonparabolicity; carrier degeneracy; drain-bias dependence; gate capacitance; nonlinear channel-access resistance; quasi-ballistic transistors; virtual-source-based transport model; Capacitance; Effective mass; HEMTs; Logic gates; Mathematical model; Resistance; III-V HEMTs; III???V HEMTs; Si ETSOI; carrier degeneracy; nonlinear channel-access resistance; quantum capacitance; quasi-ballistic transport; virtual source (VS); virtual source (VS).;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2015.2457781
