B. Jin, Young-pil Kim, B. Nam, H. Kim, Young-wook Park, J. Moon
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引用次数: 0
摘要
当DRAM降阶接近0.1 /spl mu/m时,必须解决与晶体管短通道效应、存储电容、高纵横比模式的间隙填充以及通过每个模块的漏电流相关的问题。其中,存储节点自对齐触点(SAC)是位线上电容(COB) DRAM器件集成中最关键的问题,因为它是高纵横比的最深触点之一;它到达了电池晶体管结。然而,很少有报道涉及这个问题,而其他地方也有报道(Song et al., 2000;Jeong et al., 2000;Won et al., 2000;Kim et al., 2000)。本文研究了基于0.1 /spl mu/m设计规则的dram集成的位线无间隔存储节点SAC和带TiN触点插头的Ru-Ta/sub 2/O/sub 5/-Ru (RIR)电容的新工艺。研究发现,无间隔的SAC工艺使其缩小到0.1 /spl mu/m的设计规则成为可能,并且具有比传统SAC更好的电学性能。
DRAM scaling-down to 0.1 /spl mu/m generation using bitline spacerless storage node SAC and RIR capacitor with TiN contact plug
As DRAM downscaling approaches the 0.1 /spl mu/m generation, problems related to transistor short channel effects, storage capacitance, gap filling of high aspect ratio patterns, and leakage currents through each module must be solved. Among these, processing around the storage node self-aligned contact (SAC) is the most critical problem for integration of capacitor-on-bitline (COB) DRAM devices because it is one of the deepest contacts with high aspect ratio; and it reaches the cell transistor junction. However, few reports have addressed this issue, while others have been reported elsewhere (Song et al., 2000; Jeong et al., 2000; Won et al., 2000; Kim et al., 2000). In this paper, a novel process of bitline spacerless storage node SAC and Ru-Ta/sub 2/O/sub 5/-Ru (RIR) capacitor with TiN contact plug is studied for the integration of 0.1 /spl mu/m design-rule based DRAMs. It was found that the spacerless SAC process made downscaling to the 0.1 /spl mu/m design-rule possible and also that it has better electrical properties than the conventional SAC.
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