Title :
Formulation of a tail electron hydrodynamic model based on Monte Carlo results
Author :
Yao, Chiang-Sheng ; Ahn, Jae-Gyung ; Park, Young-June ; Min, Hong-Shick ; Dutton, Robert W.
Author_Institution :
Center for Integrated Syst., Stanford Univ., CA, USA
Abstract :
In this paper, the Monte Carlo method is applied to uniform and n/sup +/-n/sup -/-n/sup +/ structures of silicon to study the behavior of tail electrons and to develop a new set of hydrodynamic equations based on tail electron statistics. Each term in these equations is calibrated under both nonhomogeneous and homogeneous electric fields. Terms associated with surface integral of the carriers and carrier momentum over an iso energy surface: (/spl Escr/=/spl Escr//sub th/) are introduced. The new tail electron hydrodynamic model yields the density (n/sub 2/) and the average energy (w/sub 2/) of tail electrons and is shown to predict hot electron effects accurately.<>
Keywords :
Monte Carlo methods; hot carriers; semiconductor device models; silicon; Monte Carlo method; carrier momentum; homogeneous electric fields; hot electron effects; hydrodynamic equations; iso energy surface; n/sup +/-n/sup -/-n/sup +/ structures; nonhomogeneous electric fields; surface integral; tail electron hydrodynamic model; tail electron statistics; Electrons; High definition video; Hydrodynamics; Integral equations; Monte Carlo methods; Predictive models; Silicon; Statistics; Tail;
Journal_Title :
Electron Device Letters, IEEE
