Advanced Direct-CMP process for porous low-k thin film

2009 IEEE International Interconnect Technology Conference Pub Date : 2009-06-01 DOI:10.1109/IITC.2009.5090399
H. Korogi, H. Chibahara, Shigeru Suzuki, M. Tsutsue, K. Seo, Y. Oka, K. Goto, Moriaki Akazawa, H. Miyatake, S. Matsumoto, T. Ueda
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Abstract

In order to reduce the effective dielectric constant (keff) for the 32 nm technology node and beyond, Direct-CMP of a porous low-k film without a protective cap layer is required. However, the degradation of breakdown electric field (Ebd) has been one of critical issues. This study clarified that the Ebd degradation was caused by the pit defects on the surface of porous low-k film during Direct-CMP. In order to suppress the pit defects, we evaluated dependency of micro-pores density of CMP pads. As a result, we demonstrated that CMP pads with low-density micro-pores drastically reduced them and improved the Ebd degradation. In this paper, the mechanism for their reduction is also discussed.
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多孔低钾薄膜的先进直接- cmp工艺
为了降低32nm及以上技术节点的有效介电常数(keff),需要对无保护帽层的多孔低k薄膜进行Direct-CMP。然而,击穿电场(Ebd)的退化一直是关键问题之一。本研究明确了在Direct-CMP过程中,Ebd的降解是由多孔低k膜表面的凹坑缺陷引起的。为了抑制凹坑缺陷,我们评估了微孔密度对CMP衬垫的依赖性。因此,我们证明了具有低密度微孔的CMP垫可以显著减少它们并改善Ebd的降解。本文还讨论了它们的还原机理。
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2009 IEEE International Interconnect Technology Conference
2009 IEEE International Interconnect Technology Conference
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