4.5 Article

Electromigration-Induced Plasticity: Texture Correlation and Implications for Reliability Assessment

Journal

JOURNAL OF ELECTRONIC MATERIALS
Volume 38, Issue 3, Pages 379-391

Publisher

SPRINGER
DOI: 10.1007/s11664-008-0602-5

Keywords

Electromigration; copper; interconnects; texture; plasticity; reliability; dislocations; x-ray microdiffraction

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Plastic behavior has previously been observed in metallic interconnects undergoing high-current-density electromigration (EM) loading. In this study of Cu interconnects, using the synchrotron technique of white-beam x-ray microdiffraction, we have further found preliminary evidence of a texture correlation. In lines with strong (111) textures, the extent of plastic deformation is found to be relatively large compared with that of weaker textures. We suggest that this strong (111) texture may lead to an extra path of mass transport in addition to the dominant interface diffusion in Cu EM. When this extra mass transport begins to affect the overall transport process, the effective diffusivity, D (eff), of the EM process is expected to deviate from that of interface diffusion only. This would have fundamental implications. We have some preliminary observations that this might be the case, and report its implications for EM lifetime assessment herein.

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