Title :
Two-dimensional simulation of local oxidation of silicon: calibrated viscoelastic flow analysis
Author :
Senez, Vincent ; Collard, Dominique ; Ferreira, Paul ; Baccus, Bruno
Author_Institution :
IEMN Dept. ISEN, Villeneuve d´´Ascq, France
fDate :
5/1/1996 12:00:00 AM
Abstract :
Local Oxidation of Silicon (LOCOS) remains the common isolation technology for mass-production of integrated circuits. The work reported in this paper contributes to the improvement of the numerical modeling of the LOCOS process. A physical two-dimensional (2-D) modeling of the thermal oxidation of silicon has been developed based on the explicit treatment of the reaction expansion. The originality of this modeling is to propose a general solution taking into account of the silicon deformation, incorporating the viscoelastic behaviour of oxide and nitride and, particularly, giving a complete calibration of the stress-dependent parameters. The prediction capabilities are demonstrated by the calculations of oxide shapes and oxidation-induced stresses in a silicon substrate for very advanced isolation techniques
Keywords :
calibration; deformation; diffusion; digital simulation; electronic engineering computing; flow simulation; isolation technology; non-Newtonian flow; oxidation; semiconductor process modelling; silicon; stress effects; IC mass-production; IMPACT-4; LOCOS process; Si; Si deformation; Si substrate; calibrated viscoelastic flow analysis; integrated circuits; isolation technology; local oxidation of Si; nitride viscoelastic behaviour; numerical modeling; oxide viscoelastic behaviour; physical 2D modeling; reaction expansion; stress-dependent parameters; thermal oxidation; two-dimensional simulation; Circuit simulation; Deformable models; Elasticity; Isolation technology; Numerical models; Oxidation; Silicon; Thermal expansion; Two dimensional displays; Viscosity;
Journal_Title :
Electron Devices, IEEE Transactions on
