CMP微划痕形成机理的实验研究

Proceedings of the 15th Biennial University/Government/ Industry Microelectronics Symposium (Cat. No.03CH37488) Pub Date : 2003-09-04 DOI:10.1109/UGIM.2003.1225707

S. Aytes, J. S. Armstrong, K.A. Mortensen, C. Russell, K. Ross, J. E. Giraud, D. Hooper, H.M. Alexander, T. Corsetti, M. Nelson, M. Engle, J. Prasad

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引用次数: 8

摘要

化学机械刨平微划痕是半导体生产中限制良率和可靠性的缺陷。在过孔或金属线之间的电气短路是最可能的故障模式。随着器件几何形状的减小，微划痕导致器件故障的概率增加。因此，了解微划痕形成的机制对于提高产量和可靠性变得越来越重要。提出了微划痕形成的机理，并给出了支持该机理的实验结果。有人提出，微划痕主要是由抛光(上光)过程中堆积在抛光垫纤维中的浆料颗粒引起的。一旦装入衬垫，二氧化硅颗粒就会聚集。如果二氧化硅颗粒在抛光结束时或在抛光之间暴露于pH值小于10的环境中，则尤其如此。在移地垫调理过程中，聚集的二氧化硅从垫纤维上断裂和松动，但不会从垫表面去除。在抛光的最初几秒钟内，破碎的二氧化硅碎片会造成微小的划痕。实验数据完全支持这一机制。基于这一机制，工艺变化产生了一个数量级的减少微划伤相关的故障。

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Experimental investigation of the mechanism for CMP micro-scratch formation

CMP (chemical mechanical planarization) micro-scratches are yield and reliability limiting defects in semiconductor production. Electrical shorts, between vias or metal lines, are the most likely failure modes. As device geometries decrease, the probability of a micro-scratch causing a device failure increases. Therefore, understanding of the mechanisms involved in micro-scratch formation becomes increasingly important for good yield and reliability. A mechanism for the formation of micro-scratches and the experimental results in support of the mechanism are presented. It is proposed that micro-scratches are caused primarily by slurry particles that pack into the polish pad fibers during polish (glazing). Once packed into the pad, the silica particles agglomerate. This is especially true if the silica particles are exposed to pH less than ten at the end of the polish or in between polishes. During ex-situ pad conditioning, the agglomerated silica is fractured and loosened from the pad fibers but not removed from the pad surface. The fractured pieces of silica cause micro-scratches, as they break apart during the first few seconds of polish. The experimental data fully support this mechanism. Based on this mechanism, process changes were made producing an order of magnitude reduction in micro-scratch related failures.

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Proceedings of the 15th Biennial University/Government/ Industry Microelectronics Symposium (Cat. No.03CH37488)

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