Abstract
In this study, oxygen penetration through two different SiC x N y cap layers was correlated with in situ electromigration-induced void growth results. One of the SiC x N y caps was shown to be permeable to oxygen when blanket test structures were annealed in air at elevated temperatures. Electromigration results for the corresponding interconnect structures subject to the same anneals showed an increase in void growth rate as well as a decrease in the measured activation energy for diffusion and electromigration. The second SiC x N y cap, deposited using an alternate recipe, was shown to be significantly less permeable to oxygen and electromigration results showed essentially no change in void growth rate or activation energy. This suggests that oxygen concentration at the Cu/SiC x N y interface is critical in determining the mass transport along the top surface of the Cu interconnect lines.
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