B. Maiti, P. Tobin, Y. Okada, S. Ajuria, K. Reid, R. Hegde, V. Kaushik
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引用次数: 0
摘要
本文首次研究了热氧化物NO退火生长的氮化氧栅极介质的再氧化。与热氧化物、N/sub 2/O和NO氮化物相比,该工艺显著增强了有源边缘密集电容器的栅极和衬底注入Q/sub / BD/ by /spl sim/3-5X。这一改进归因于活性边缘的机械应力的减少,这导致在场氧化物边缘的栅氧化物局部变薄较少,并且减少了在隔离边缘的栅电极附近的正电荷的局部积聚。并与其它介质进行了比较。
Reoxidized nitric oxide (ReoxNO) process and its effect on the dielectric reliability of the LOCOS edge
Reoxidation of an oxynitride gate dielectric grown by NO anneal of thermal oxide has been studied for the first time. This process results in a striking enhancement of both gate and substrate injection Q/sub BD/ by /spl sim/3-5X for active edge intensive capacitors in comparison to thermal oxide, N/sub 2/O and NO oxynitride. This improvement is attributed to reduction of mechanical stress at the active edge which leads to less local thinning of gate oxide at the field oxide edge and reduction of the local build-up of positive charge near the gate electrode at the isolation edges. Drive current of n- and p-MOSFETs with ReoxNO oxynitride is also compared to other dielectrics.
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