用于高级互连性能扩展的金属线气隙集成

2023 IEEE International Interconnect Technology Conference (IITC) and IEEE Materials for Advanced Metallization Conference (MAM)(IITC/MAM) Pub Date : 2023-05-01 DOI:10.1109/IITC/MAM57687.2023.10154628

H.K. Chang, H.Y. Huang, T. Y. Lo, S.K. Lee, K.W. Yang, C.L. Tang, Gary Liu, C.T. Wu, M. Lin, W.C. Chu, T.J. Kuo, S. Fu, H.W. Tien, C. Tsai, Megan Wei, H.P. Chen, M.H. Lee, C.W. Lu, W. Shue, M. Cao

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引用次数: 0

摘要

介绍了一种气隙集成与金属花纹线相结合的新型工艺方案。在针对2nm及以上技术节点的互连间距上验证了方案的可行性。与最先进的铜damascene互连相比，通过将气隙集成到直接图案金属线上，可以实现高达25%的耦合电容降低。同时，通过适当的导体选择，使更大的晶粒尺寸和自由的金属屏障过程，在传统的铜damascene方案需要减少线路电阻成为可能。通过结合一种可通过热过程去除的新型气隙形成材料，可以很好地控制气隙高度，从而证明了性能的可扩展性。最后，通过电学和可靠性测试验证了方案的鲁棒性。

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Airgap Integration on Patterned Metal Lines for Advanced Interconnect Performance Scaling

A novel process scheme combining airgap integration with patterned metal lines is introduced. Scheme feasibility is demonstrated on interconnect pitches targeting for 2nm technology node and beyond. Up to 25% coupling capacitance reduction compared to state-of-the-art copper damascene interconnect is achieved by integrating airgap to directly patterned metal lines. Simultaneous line resistance reduction is made possible by proper conductor selection to enable larger grain size and free of metal barrier process required in conventional copper damascene scheme. Performance scalability is demonstrated through the well-controlled airgap height control enabled by the incorporation of a novel airgap formation material removable by thermal process. Finally, scheme robustness is demonstrated through electrical and reliability tests.

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来源期刊

2023 IEEE International Interconnect Technology Conference (IITC) and IEEE Materials for Advanced Metallization Conference (MAM)(IITC/MAM)

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