Misalignment-tolerated, Cu dual damascene interconnects with low-k SiOCH film by a novel via-first, multi-hard-mask process for sub-100nm-node, ASICs

IEEE International Electron Devices Meeting 2003 Pub Date : 2003-12-08 DOI:10.1109/IEDM.2003.1269413
H. Ohtake, M. Tagami, K. Arita, Y. Hayashi
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引用次数: 7

Abstract

Misalignment-tolerant, Cu dual damascene interconnects (DDI) are successfully obtained in low-k SiOCH film (k=2.9) by a novel via-first multi-hard-mask (VF-MHM) process without via-poisoning of the photo-resist. In the VF-MHM, the etching sequence has higher misalignment margin between the vias and the upper lines in the Cu DDI as compared with a conventional trench-first one (TF-MHM). The VF-MHM process improves the fabrication yield and TDDB reliability of low-k/Cu-DDIs, and is a key scheme for sub-100 nm-node, ASIC fabrication.
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通过一种新颖的过孔优先、多硬掩膜工艺,用于亚100nm节点asic的低k SiOCH薄膜的容错铜双砷互连
在低k SiOCH薄膜(k=2.9)中,通过一种新型的先过孔多硬掩膜(VF-MHM)工艺,成功地获得了Cu双damascene互连(DDI),并且没有光致抗蚀剂的过孔中毒。在VF-MHM中,与传统的沟槽优先蚀刻(TF-MHM)相比,在Cu DDI中过孔和上线之间的蚀刻顺序具有更高的偏差裕度。VF-MHM工艺提高了低k/ cu - ddi的成品率和TDDB可靠性,是100纳米以下节点ASIC制造的关键方案。
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IEEE International Electron Devices Meeting 2003
IEEE International Electron Devices Meeting 2003
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