线材厚度对Cu电迁移和应力迁移寿命的影响

2006 13th International Symposium on the Physical and Failure Analysis of Integrated Circuits Pub Date : 2006-07-03 DOI:10.1109/IPFA.2006.250985

C. Christiansen, J. Gambino, J. Therrien, D. Hunt, J. Gill

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引用次数: 0

摘要

采用0.13 μ m工艺制备的铜互连材料的电迁移和应力迁移寿命是金属厚度的函数。应力迁移寿命随着金属厚度的减小而减小，与前人的研究结果一致。电迁移寿命与金属厚度的关系更为复杂。对于落在窄线上的过孔，细线(50 nm)的电迁移寿命实际上可能比粗线(400 nm)的电迁移寿命更长，因为随着线厚的减少，过孔更有可能接触到底层金属的衬里。相反，对于落在宽线上的过孔(以及短应力时间落在窄线上的过孔)，电迁移寿命与导线厚度无关

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Effect of Wire Thickness on Electromigration and Stress Migration Lifetime of Cu

Electromigration and stress migration lifetimes are characterized as a function of metal thickness for Cu interconnects fabricated using 0.13 mum process technology. The stress migration lifetime decreases as metal thickness decreases, consistent with previous studies. The electromigration lifetime shows a more complicated dependence on metal thickness. For vias landing on narrow lines, the electromigration lifetime can actually be longer for thin wires (50 nm) than for thick wires (400 nm), because the via is more likely to touch the liner of the underlying metal as wire thickness decreases. In contrast, for vias landing on wide lines (and for vias landing on narrow lines at short stress times), the electromigration lifetime is independent of wire thickness

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2006 13th International Symposium on the Physical and Failure Analysis of Integrated Circuits

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