阻挡层对铜/低钾互连电迁移可靠性的影响

Proceedings of the IEEE 2005 International Interconnect Technology Conference, 2005. Pub Date : 2005-06-06 DOI:10.1109/IITC.2005.1499914

X. Lu, J. Pyun, B. Li, N. Henis, K. Neuman, K. Pfeifer, P. Ho

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引用次数: 7

摘要

研究了阻挡层厚度和工艺变化对铜/多孔低钾互连电迁移可靠性的影响。EM强模寿命和临界长度-电流密度积(jL)/sub c/几乎与Ta势垒厚度无关。考虑基于有效模量b的结构约束效应可以解释这一结果。随着屏障厚度的减小，多环节测试结构出现早期失效，降低了EM寿命和临界(jL)/sub c/ product。未优化的屏障沉积工艺会显著改变孔隙形成位置，导致EM寿命和(jL)/sub c/ product的降低。在这种情况下，通过FIB和TEM的失效分析发现了与Cu向外扩散有关的缺陷，导致寿命退化和线路短路。

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Barrier layer effects on electromigration reliability of Cu/low k interconnects

The effects of barrier thickness scaling and process changes on electromigration (EM) reliability were investigated for Cu/porous low k interconnects. Both EM strong mode lifetime and critical length-current density product (jL)/sub c/ were found to be almost independent of the Ta barrier thickness. The results can be accounted for by considering the structural confinement effect based on the effective modulus B. With reducing barrier thickness, early failures emerged in multi-link test structures degrading EM lifetime and the critical (jL)/sub c/ product. A non-optimized barrier deposition process can significantly alter the void formation site, leading to a reduction in EM lifetime and (jL)/sub c/ product. In this case, failure analyses by FIB and TEM have identified defects related to Cu out-diffusion to induce lifetime degradation and line shorting.

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Proceedings of the IEEE 2005 International Interconnect Technology Conference, 2005.

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