Title :
Trajectory split method for Monte Carlo simulation of ion implantation demonstrated by three-dimensional poly-buffered LOCOS field oxide corners
Author :
Bohmayr, W. ; Selberherr, S.
Author_Institution :
Inst. fur Microelectron., Tech. Univ. Wien, Austria
fDate :
31 May-2 Jun 1995
Abstract :
The benefits of an acceleration method for two and three-dimensional Monte Carlo simulation of ion implantation into crystalline targets is demonstrated by three-dimensional poly-buffered LOCOS field oxide corners. The “trajectory split method” ensures a much better statistical representation in regions with a dopant concentration several orders of magnitudes smaller than the maximum. As a result the time required to perform a simulation with comparable statistical accuracy is drastically reduced
Keywords :
Monte Carlo methods; digital simulation; electronic engineering computing; ion implantation; semiconductor process modelling; 3D poly-buffered LOCOS field oxide corners; Monte Carlo simulation; acceleration method; crystalline targets; dopant concentration; ion implantation; statistical accuracy; three-dimensional simulation; trajectory split method; two-dimensional simulation; Acceleration; Aerospace simulation; Computational modeling; Computer simulation; Crystallization; Ion implantation; Microelectronics; Monte Carlo methods; Trajectory; Uncertainty;
Conference_Titel :
VLSI Technology, Systems, and Applications, 1995. Proceedings of Technical Papers. 1995 International Symposium on
Conference_Location :
Taipei
Print_ISBN :
0-7803-2773-X
DOI :
10.1109/VTSA.1995.524642
