Title :
An implicit coupling scheme for the use of long time steps in stable self-consistent particle simulation of semiconductor devices with high doping levels
Author :
Liebig, D. ; Elnour, A. Abou ; Schunemann, K.
Author_Institution :
Arbeitsbereich Hochfrequenztechnik, Tech. Univ. Hamburg-Harburg, Germany
Abstract :
The aim of the present work is to introduce an efficient iterative implicit coupling scheme for the stochastic particle simulation of semiconductor devices which allows to use long time-steps between successive solutions of the Poisson equation even if the maximum plasma frequency is very high, and which easily can incorporate particle-mesh coupling schemes which guarantee weak self-forces and to first order can also incorporate exact integration of the equations of motion across cell-boundaries of the Poisson-grid. The new method can directly improve the computational efficiency of many particle simulators (standard MC, full-band MC, CA-methods) by an order of magnitude if devices with high free carrier densities are under investigation.
Keywords :
Monte Carlo methods; cellular automata; iterative methods; numerical stability; semiconductor device models; Monte Carlo code; Poisson equation; carrier density; cellular automata; computational efficiency; doping level; iterative implicit coupling; self-consistent stochastic particle simulation; semiconductor device; time step; Charge carrier density; Computational efficiency; Computational modeling; Frequency; Plasma devices; Plasma simulation; Poisson equations; Semiconductor device doping; Semiconductor devices; Stochastic processes;
Conference_Titel :
Simulation of Semiconductor Processes and Devices, 1996. SISPAD 96. 1996 International Conference on
Print_ISBN :
0-7803-2745-4
DOI :
10.1109/SISPAD.1996.865266
