高温退火过程中挤压成形的表征

2000 IEEE International Integrated Reliability Workshop Final Report (Cat. No.00TH8515) Pub Date : 2000-10-23 DOI:10.1109/IRWS.2000.911929

J. Kelsey-Wynne, F. Chen, J. Furukawa, T. Sullivan

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引用次数: 1

摘要

铝铜(Al-Cu)薄膜在高温下的应力松弛会导致有问题的挤压形成。Al-Cu线中的挤压可能会向相邻线和短器件生长，从而导致可靠性和产品良率问题。提高对挤压形成背后驱动机制的理解是必要的，以量化不同变量的贡献，以更好地控制过程窗口。利用扫描电子显微镜观察了氧化沉积前沿金属线边缘形成的挤压物。除了对标准退火和快速热退火工艺进行比较研究外，还对各种金属堆和金属线尺寸进行了动力学研究。对这些研究结果进行了分析，并与假设基于扩散的增长模型以及有限元模型进行了比较。

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Characterization of extrusion formation during high temperature anneal

Stress relaxation in aluminum-copper (Al-Cu) films at elevated temperatures can result in problematic extrusion formation. Extrusions in Al-Cu lines can potentially grow towards neighboring lines and short devices, resulting in reliability and product yield concerns. Improved understanding of the driving mechanisms behind extrusion formation is necessary to quantify the contribution of different variables for better process window control. Scanning electron microscopy was used to view the extrusions that form along the sides of metal lines before oxide deposition. A kinetics study was performed on various metal stacks and metal line dimensions in addition to a comparison study of standard anneal and rapid thermal anneal processes. The results of these studies were analyzed and compared with a model assuming diffusion based growth as well as with a finite element model.

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来源期刊

2000 IEEE International Integrated Reliability Workshop Final Report (Cat. No.00TH8515)

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