采用实现0.25 /spl mu/m-256 Mbit dram的两级Cu互连，定量分析Cu在TaN阻挡金属中的扩散和器件退化

Proceedings of the IEEE 2000 International Interconnect Technology Conference (Cat. No.00EX407) Pub Date : 2000-06-05 DOI:10.1109/IITC.2000.854324

T. Kawanoue, T. Iijima, T. Matsuda, Y. Yamada, M. Morikado, K. Sugimae, T. Kajiyama, H. Maekawa, T. Hamamoto, J. Kumagai, H. Kaneko, N. Hayasaka

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引用次数: 0

摘要

为了评价Cu在实际使用的damascene结构中的扩散，采用等离子体增强CVD-SiO/sub - 2/ (p-SiO/sub - 2/)层和沟槽测试结构，首次通过精确化学分析定量了微量Cu通过TaN阻挡金属进入p-SiO/sub - 2/沟槽的扩散。在沟槽结构中，Cu的扩散量比毯状结构大2个数量级。这种沟槽结构的增加可以用得到的Cu在TaN中的扩散系数和TaN在沟槽侧壁处的台阶覆盖率来很好地解释。在0.25 /spl mu/m的256m位dram上实现了两级Cu互连，并研究了退火后Cu扩散对保留时间的影响。结果表明，ILD中10/sup 16/原子/cm/sup 3/量级的Cu可能会影响DRAM电池的功能。

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Quantitative analysis on Cu diffusion through TaN barrier metal and the device degradation by using two-level Cu-interconnects implemented 0.25 /spl mu/m-256 Mbit DRAMs

To evaluate Cu diffusion in a practically used damascene structure, plasma-enhanced CVD-SiO/sub 2/ (p-SiO/sub 2/) layer with trench test structure was used, and trace Cu diffusion into the p-SiO/sub 2/ trench through TaN barrier metal was quantified by precise chemical analysis for the first time. In the trench structure, the diffused Cu amount was 2 orders of magnitude larger than that in the blanket structure. This increase in the trench structure has been well explained by the obtained Cu diffusion coefficient in TaN and the TaN step coverage at the trench sidewall. Two-level Cu interconnects have been implemented for the 0.25 /spl mu/m 256 M bit-DRAM, and the retention time decrease after annealing has been examined in related to Cu diffusion. The result suggested the possibility that the Cu in the ILD on the order of 10/sup 16/ atoms/cm/sup 3/ affected the DRAM cell function.

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Proceedings of the IEEE 2000 International Interconnect Technology Conference (Cat. No.00EX407)

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