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Thermomechanical deformation of 1 μm thick Cu-polyimide line arrays studied by scanning probe microscopy

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Abstract

Due to the lower dielectric constant than the currently used SiO2 dielectric, several polyimides are being considered for use in multi-layer high density interconnects. However, the mismatch in out-of-plane coefficient of thermal expansion (CTE) between the Cu conductor and most spin-coated polyimides may cause interfacial failures. A scanning probe microscope was used to estimate the out-of-plane CTE for several 1 μm thick, spin-coated polyimides and to observe thermally induced deformation of Cu-polyimide test structures on Si. The change in relative height of arrays of parallel Cu and polyimide lines of various aspect ratios were imaged in air at room temperature and 97°C. Linear elastic, generalized plane strain finite element models for different out-of-plane CTEs were used to estimate the CTE from the profile changes. It was observed that narrow (≤1 μm) polyimide lines are more constrained from expansion than wider lines.

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Authors and Affiliations

  1. Department of Mechanical Engineering, University of New Hampshire, 03824, Durham, NH

    D. V. Zhmurkin & T. S. Gross

  2. IBM T.J. Watson Research Center, 10598, Yorktown Heights, NY

    L. P. Buchwalter

  3. Microelectronic Materials Division, Cabot Corporation, 500 Commons Drive, 60134, Aurora, IL

    F. B. Kaufman

Authors
  1. D. V. Zhmurkin
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  2. T. S. Gross
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  3. L. P. Buchwalter
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  4. F. B. Kaufman
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Zhmurkin, D.V., Gross, T.S., Buchwalter, L.P. et al. Thermomechanical deformation of 1 μm thick Cu-polyimide line arrays studied by scanning probe microscopy. J. Electron. Mater. 25, 976–982 (1996). https://doi.org/10.1007/BF02666733

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  • DOI: https://doi.org/10.1007/BF02666733

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