揭示传统电感耦合等离子体蚀刻工具中高 k 电介质原子层蚀刻的控制机制

V. Kuzmenko, Alexander Melnikov, Alexandr Isaev, A. Miakonkikh
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引用次数: 0

摘要

研究了在传统等离子刻蚀工具中对二氧化铪进行两步原子层刻蚀工艺优化的可能性。表面改性步骤在 Ar/CF4/H2 等离子体中实现,改性层和表面之间的反应在第二步中通过等离子体中的氩离子轰击激活。研究了活化步骤持续时间、活化过程中的直流偏压和氩等离子体密度的影响。研究表明,蚀刻过程的机理包括在改性步骤中氧化物的氟化,以及随后在活化步骤中含氟颗粒的去除。结果表明,随着活化过程中直流偏压的增加,寄生溅射率增加,工艺饱和度降低。与传统蚀刻工艺相比,ALE 工艺具有表面粗糙度低的优势。HfO2 和 ZrO2 相似的蚀刻特性表明,铪锆混合氧化物材料的蚀刻工艺具有相似性。
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Revealing the controlling mechanisms of atomic layer etching for high-k dielectrics in conventional inductively coupled plasma etching tool
The possibilities of optimization of the two-step atomic layer etching process for HfO2 in conventional plasma etching tools were studied. The surface modification step was realized in Ar/CF4/H2 plasma, and the reaction between the modified layer and the surface was activated by Ar ion bombardment from the plasma in the second step. Investigation of the effects of activation step duration, DC bias during activation, and Ar plasma density was carried out. The mechanism of the etching process has been shown to involve fluorination of oxide during the modification step and subsequent removal of fluorine-containing particles at the activation step. An increase in parasitic sputtering rate and lower process saturation with the growth of DC bias during activation was demonstrated. The advantage of the ALE process in lower surface roughness over the conventional etching process was shown. Similar etching characteristics of HfO2 and ZrO2 suggest a similarity in the etching process for the mixed hafnium-zirconium oxide material.
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