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Dependence of process parameters on stress generation in aluminum thin films

The dependence of residual stress on the process parameters for aluminum metallization has been studied using a rotating beam sensor. This shows increasing tensile stress with both the target power and ambient pressure used during the sputter deposition of the aluminum layer. The bulk resistivity of...

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Published in:	IEEE transactions on device and materials reliability 2004-09, Vol.4 (3), p.482-487
Main Authors:	Horsfall, A.B., Kai Wang, dos-Santos, J.M.M., Soare, S.M., Bull, S.J., Wright, N.G., O'Neill, A.G., Terry, J.G., Walton, A.J., Gundlach, A.M., Stevenson, J.T.M.
Format:	Magazinearticle
Language:	English
Subjects:	Aluminum Conductivity Deposition Integrated circuit reliability interconnect Metallization Metallizing Power measurement Pressure Pressure measurement Process parameters reliability Residual stresses Sensors Sputtering stress Stresses Tensile stress Thermal expansion Thermal stresses Thin films Transistors
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container_title	IEEE transactions on device and materials reliability
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creator	Horsfall, A.B. Kai Wang dos-Santos, J.M.M. Soare, S.M. Bull, S.J. Wright, N.G. O'Neill, A.G. Terry, J.G. Walton, A.J. Gundlach, A.M. Stevenson, J.T.M.
description	The dependence of residual stress on the process parameters for aluminum metallization has been studied using a rotating beam sensor. This shows increasing tensile stress with both the target power and ambient pressure used during the sputter deposition of the aluminum layer. The bulk resistivity of the deposited aluminum has been measured using a Van der Pauw technique on test structures fabricated alongside the sensors and this shows different trends with respect to the target power and ambient pressure. This indicates that the stress in an interconnect feature is dominated by extrinsic components, which result from the mismatch in thermal expansion coefficient between the constituent layers, rather than the defects formed during the sputter deposition of the metallization. This indicates the suitability of the stress sensor technique to the monitoring of interconnect features in a production line environment.
doi_str_mv	10.1109/TDMR.2004.829389
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This shows increasing tensile stress with both the target power and ambient pressure used during the sputter deposition of the aluminum layer. The bulk resistivity of the deposited aluminum has been measured using a Van der Pauw technique on test structures fabricated alongside the sensors and this shows different trends with respect to the target power and ambient pressure. This indicates that the stress in an interconnect feature is dominated by extrinsic components, which result from the mismatch in thermal expansion coefficient between the constituent layers, rather than the defects formed during the sputter deposition of the metallization. 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This shows increasing tensile stress with both the target power and ambient pressure used during the sputter deposition of the aluminum layer. The bulk resistivity of the deposited aluminum has been measured using a Van der Pauw technique on test structures fabricated alongside the sensors and this shows different trends with respect to the target power and ambient pressure. This indicates that the stress in an interconnect feature is dominated by extrinsic components, which result from the mismatch in thermal expansion coefficient between the constituent layers, rather than the defects formed during the sputter deposition of the metallization. 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source	IEEE Electronic Library (IEL) Journals
subjects	Aluminum Conductivity Deposition Integrated circuit reliability interconnect Metallization Metallizing Power measurement Pressure Pressure measurement Process parameters reliability Residual stresses Sensors Sputtering stress Stresses Tensile stress Thermal expansion Thermal stresses Thin films Transistors
title	Dependence of process parameters on stress generation in aluminum thin films
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