应力和应力松弛对Cu互连体应力消除机制的介电材料依赖性

2005 IEEE International Reliability Physics Symposium, 2005. Proceedings. 43rd Annual. Pub Date : 2005-04-17 DOI:10.1109/RELPHY.2005.1493084

Jong-Min Paik, Jung-Kyu Jung, Young‐Chang Joo

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引用次数: 8

摘要

通过实验和数值模拟研究了大马士革铜中应力与线宽的关系。实测的静水应力随线宽的增大而增大。在大尺寸的互连中，晶粒尺寸越大，应力越大，除了产生热机械应力外，还会产生较大的生长应力。建立了基于微观结构的应力模型，采用有限元方法定量分析了大马士革线生长和热应力的贡献。在考虑生长应力和热应力的情况下，通孔的应力小于宽线的应力。因此，我们的应力模型成功地解释了在宽线附近的通孔中发生空洞的特征破坏模式。

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The dielectric material dependence of stress and stress relaxation on the mechanism of stress-voiding of Cu interconnects

The line width dependence of stress in damascene Cu was examined experimentally as well as with a numerical simulation. The measured hydrostatic stress was found to increase with increasing line width. The larger stress in an interconnect with large dimension is attributed to the larger grain size, which induces higher growth stress in addition to thermomechanical stress. A stress model based on microstructure was constructed and the contribution of the growth and thermal stress of the damascene lines were quantified using finite element analysis. It was found that the stress of the via is lower than that of wide lines when both the growth stress and thermal stress were considered. Therefore, the characteristic failure mode, i.e. voiding in a via neighboring a wide line, was successfully explained by our stress model.

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来源期刊

2005 IEEE International Reliability Physics Symposium, 2005. Proceedings. 43rd Annual.

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