Synchrotron measurement of the effect of dielectric porosity and air gaps on the stress in advanced Cu/Low-k interconnects

2009 IEEE International Interconnect Technology Conference Pub Date : 2009-06-01 DOI:10.1109/IITC.2009.5090343
C. Wilson, C. Zhao, L. Zhao, Z. Tokei, K. Croes, M. Pantouvaki, G. Beyer, A. Horsfall, A. O'Neill
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引用次数: 3

Abstract

The stress of Cu interconnects embedded in advanced ultra-low-k (ULK) dielectrics was studied for different porosities. Interconnects formed a high porosity material result in a lower stress due to relaxation in the plane. This effect is less significant for narrow lines, where in-plane relaxation is reduced by the dense narrow spacing. The stress in isolated lines was found to be independent of dielectric porosity. We also studied air gap structures, showing the lowest stress. This work will be useful when interpreting reliability failure mechanisms and calibrating finite element models to predict stress in devices of future technology nodes.
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超前Cu/Low-k互连中介电孔隙率和气隙对应力影响的同步加速器测量
研究了先进超低钾(ULK)介电材料中Cu互连线在不同孔隙率下的应力。互连形成的高孔隙率材料由于在平面上的松弛而导致较低的应力。对于窄线,这种效应不太显著,因为密集的窄间距减少了面内松弛。发现孤立线中的应力与介电孔隙率无关。我们还研究了气隙结构,显示出最低的应力。这项工作将有助于解释可靠性失效机制和校准有限元模型,以预测未来技术节点设备的应力。
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2009 IEEE International Interconnect Technology Conference
2009 IEEE International Interconnect Technology Conference
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