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Modeling Pattern Effects in Oxide CMP

Published online by Cambridge University Press:  01 February 2011

R. Rzehak*
Affiliation:
Infineon Technologies SC300 GmbH & Co.OHG, Königsbrücker Str. 180, 01099 Dresden, Germany
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Abstract

We present an extension of the density-stepheight model for pattern effects in oxide CMP which accounts for the roughness of the polishing pad's surface. The model is compared to polishing data for processes using different pressure and speed. Agreement with the data is improved especially in the initial regime of polishing before the pad contacts the down areas.

Type
Research Article
Copyright
Copyright © Materials Research Society 2005

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References

1. Tseng, E., Yi, C., Chen, H. C., “A mechanical model for DRAM dielectric CMP process”, Proc. CMP-MIC Conf. 1997, p. 258.Google Scholar
2. Stine, B. et al. , “A Closed-Form Analytic Model for ILD Thickness Variation in CMP Processes”, Proc. CMP-MIC Conf. 1997, p. 266; T. Smith et al, ”A CMP Model Combining Density and Time Dependencies”, Proc. CMP-MIC Conf. 1999, p. 97.Google Scholar
3. Grillaert, J. et al. , “Modelling step height reduction and local removal rates based on padsubstrate interactions”, Proc. CMP-MIC Conf. 1998, p. 79; J. Grillaert et al, “Modelling the Influence of Pad Bending on the Planarization Performance During CMP”, MRS Spring Meeting 1999, p. 45.Google Scholar
4. Ouma, D. O. et al. , “Characterization and Modeling of Oxide CMP Using Planarization Length and Pattern Density Concepts”, IEEE Trans. Semicond. Manuf. 15, 2002, p. 232 Google Scholar
5. Stine, B. E. et al. , “Rapid Characterization and Modeling of Pattern-Dependent Variation in CMP”, IEEE Trans. Semicond. Manuf. 11, 1998, p. 129 Google Scholar
6. Vlassak, J.J., “A model for CMP of a material surface based on contact mechanics”, J. Mech. Phys. Solids 52, 2004, p. 847 Google Scholar