P. Aum, Xiaoyu Li, V. Prabhakar, T. Brożek, C. Viswanathan
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引用次数: 10
摘要
本文介绍了一个使用SEMATECH SPIDER测试结构的案例研究,以评估和识别在使用0.35 /spl μ l /m CMOS线和6.5 nm氧化物制造n-和p-MOS器件时产生关键损伤的等离子体工艺步骤。通过对晶体管模块的电特性分析,可以确定接触蚀刻步骤是所研究技术的主要损伤产生步骤。CMOS器件HC可靠性退化的结果与氧化物降解的直接观察结果一致,表明损伤的性质是充电型的。
Use of SPIDER for the identification and analysis of process induced damage in 0.35 /spl mu/m transistors
The paper presents a case study of the use of the SEMATECH SPIDER test structure to evaluate and identify critical damage producing plasma process steps in the fabrication of n- and p-MOS devices manufactured with a 0.35 /spl mu/m CMOS line with 6.5 nm oxide. Electrical characterization of transistor modules enabled the identification of contact etch step as the principal damage producing step for the technology under investigation. The results on HC reliability degradation in CMOS devices are in agreement with the direct observations of oxide degradation, showing that the nature of the damage is of the charging type.
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