Title :
A novel approach for introducing the electron-electron and electron-impurity interactions in particle-based simulations
Author :
Gross, W.J. ; Vasileska, D. ; Ferry, D.K.
Author_Institution :
Intel Corp., Chandler, AZ, USA
Abstract :
A new method for employed electron-electron (e-e) and electron-ion (e-i) interactions in Monte Carlo particle based simulators is presented. By using a corrected Coulomb force in conjunction with a proper cutoff range, the "double" counting of the long range interaction is eliminated while reducing the simulation time for molecular dynamics by a factor of 1000. The proposed method naturally incorporated the multi-ion contributions, local distortions in the scattering potential due to the movement of the free charges, and carrier-density fluctuations. The doping dependence of the low-field mobility obtained from three-dimensional (3-D) resistor simulation closely follows experimental results, thus proving the correctness of the proposed approach.
Keywords :
Monte Carlo methods; molecular dynamics method; semiconductor device models; Coulomb force; coupled ensemble Monte Carlo-molecular dynamics method; doping dependence; electron-electron interaction; electron-impurity interaction; low-field mobility; particle-based simulation; semiconductor device; three-dimensional resistor; Charge carrier processes; Distribution functions; Doping; Electromagnetic compatibility; Electrons; Impurities; Kernel; Monte Carlo methods; Particle scattering; Resistors;
Journal_Title :
Electron Device Letters, IEEE
