研究纳米互连对未来互连挑战的早期实验评估

N. Engelhardt, G. Schindler, W. Steinhogl, G. Steinlesberger, M. Traving
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引用次数: 4

摘要

由于下一代光刻技术仍在研究中,对与未来技术节点的cd互连的研究仅限于用于模式定义的直接写入技术。为了绕过直接写入的吞吐量限制,只允许制造有限数量的测试结构用于工艺适应和电气表征,开发了替代方法。标准步进制造光刻技术与额外的工艺技巧相结合,在晶圆上制造大量的测试结构,cd低至20nm,然而,代价是一个宽松的间距。为了研究damascene铜和减铝金属化的结垢极限,分别开发了可移动间隔技术和硬掩模修剪技术。因此,可以制备深亚100nm CDs的大马士革沟槽和rie掩模。铜纳米互连的电学特性表明,在未来的技术世代中,即使冷却也无法满足导体电阻率的ITRS要求。然而,用于屏障膜的ITRS红砖墙正在出现裂缝。在退火和过量BTS测试后,薄膜厚度低于路线图末端厚度要求的屏障功能在线对线泄漏方面具有出色的屏障完整性。铜纳米互连的电迁移行为的初步结果也令人鼓舞。人工智能的结果正在进行中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of nano interconnects for an early experimental assessment of future interconnect challenges
The investigation of interconnects with CDs of future technology nodes is limited to direct writing techniques for pattern definition, as next generation lithography is still under investigation. To by-pass the throughput limitations of direct writing, allowing the fabrication of only a limited number of test structures for process adaptations and electrical characterization, alternative approaches were developed. Standard stepper manufacturing lithography was used in combination with additional process tricks to fabricate a large number of test structures across the wafers with CDs down to 20nm, however, at the expense of a relaxed pitch. For a study of the scaling limits of copper damascene and subtractive aluminium metallization, a removable spacer technique and a hard mask trim were developed, respectively. Thus damascene trenches and RIE-masks with deep sub-100nm CDs could be prepared. The electrical characterization of Cu nano interconnects shows that the ITRS requirement for the conductor resistivity will not be met, not even with cooling, in future technology generations. The ITRS red brick wall for barrier films, however, is getting cracks. Barrier functionality with film thicknesses below end-of-roadmap thickness requirements was demonstrated with excellent barrier integrity regarding line-to-line leakage after anneals and after excessive BTS tests. First results on electromigration behaviour of Cu nano interconnects are also encouraging. Results on Al are underway.
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