堆积钨孔结构应力致空化

1998 IEEE International Reliability Physics Symposium Proceedings. 36th Annual (Cat. No.98CH36173) Pub Date : 1999-04-01 DOI:10.1109/RELPHY.1998.670663

S. Domae, H. Masuda, K. Tateiwa, Y. Kato, M. Fujimoto

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引用次数: 11

摘要

采用新型试验结构研究了钨孔叠合铝合金薄膜的应力致空化现象。在老化试验后，在堆叠和无边界通孔的互连中发现了空隙，这些孔的阻力增加了。当测试结构储存在250/spl℃左右时，最常发生故障。这种行为可以用扩散蠕变模型来解释，就像一条平坦线上的SV一样(McPherson和Dunn, 1987)。通过热应力模拟和透射电镜(TEM)观察，建立了SV模型。当温度升高超过175/spl°C时，上塞和下塞之间的应力增加。具有大角度取向偏差的晶粒常出现在柱塞上方。拉伸应力和晶粒取向错误会加速空洞的生长。O/sub - 2/等离子体金属后蚀刻处理可有效消除堆叠通孔结构中的SV。

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Stress-induced voiding in stacked tungsten via structure

Stress-induced voiding (SV) in Al-alloy films with stacked tungsten via structures was investigated using new test structures. Voids were found in interconnections with stacked and borderless vias that had increased resistance after aging tests. Failure occurs most frequently when the test structures are stored at around 250/spl deg/C. This behavior can be explained by the diffusion creep model as being like SV in a flat line (McPherson and Dunn, 1987). A model of SV was obtained from thermal stress simulation and transmission electron microscopy (TEM) observation. Stress increases between upper and lower plugs with temperature increases over 175/spl deg/C. Grains, which have high-angle misorientation, are often found above plugs. The tensile stress and grain misorientation should accelerate the void growth. O/sub 2/ plasma post metal etch treatment was found to be effective for elimination of SV in stacked via structures.

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来源期刊

1998 IEEE International Reliability Physics Symposium Proceedings. 36th Annual (Cat. No.98CH36173)

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