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Ellipsometry Measurement Accuracy of Gate Oxides under Polysilicon

Published online by Cambridge University Press:  01 February 2011

Gary Jiang
Affiliation:
Rudolph Technologies, Inc. One Rudolph Rd, Flanders, NJ 07836
Don Pelcher
Affiliation:
Rudolph Technologies, Inc. One Rudolph Rd, Flanders, NJ 07836
Daewon Kwon
Affiliation:
Rudolph Technologies, Inc. One Rudolph Rd, Flanders, NJ 07836
Jana Clerico
Affiliation:
Rudolph Technologies, Inc. One Rudolph Rd, Flanders, NJ 07836
George Collins
Affiliation:
Rudolph Technologies, Inc. One Rudolph Rd, Flanders, NJ 07836
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Abstract

Precisely controlling the thickness of ultrathin silicon dioxide (SiO2) gate dielectric films is critical for high yield advanced generation semiconductor manufacturing. Advanced methods for producing ultrathin gates deposit both the gate dielectric and the polysilicon (poly-Si) gate electrode in a single cluster tool. This avoids the opportunity for adsorption of molecular airborne contamination (MAC) between deposition of the two layers, but necessitates measuring gate oxide thickness through a thick poly-Si layer.

Variations in poly-Si grain size, amorphous silicon content, and roughness, make it very difficult to model the optical feedback in the visible spectral range to resolve ultrathin (10–20 Å) gate oxides with sufficient accuracy and repeatability for process control.

This paper studies the optical behavior of the poly-Si/dielectric filmstack from 190 nm to 900 nm and the physical properties of the poly-Si layer. A more accurate modeling method is proposed to characterize the poly-Si and its top roughness layer using effective medium approximation (EMA) models. Using the new model, both a spectroscopic ellipsometer (SE) and a multi-angle multi-wavelength laser ellipsometer (MWLE) were employed to measure wafers with different poly-Si and gate oxide thicknesses. TEM was used to characterize the film thickness while roughness was determined using AFM. Good correlation was obtained between the TEM, AFM, and ellipsometry results. Excellent repeatability (0.04 Å 1σ on a 15 Å gate oxide for 10 days) and across the wafer uniformity (0.2 Å 1σ for a 49-point map) were also achieved when measuring gate dielectric films under the poly-Si with the MWLE.

Type
Research Article
Copyright
Copyright © Materials Research Society 2004

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References

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