腔壁对使用循环氩/碳氟化合物等离子体的碳氟化合物辅助原子层蚀刻二氧化硅的影响。
Effect of the chamber wall on fluorocarbon-assisted atomic layer etching of SiO using cyclic Ar/CF plasma.
作者信息
Kawakami Masatoshi, Metzler Dominik, Li Chen, Oehrlein Gottlieb S
机构信息
Electronic Device Systems Business Group, Hitachi High-Technologies Corporation , 794 Higashitoyoi, Kudamatsu, Yamaguchi 744-0002, Japan.
Department of Material Science and Engineering, Institute for Research in Electronics and Applied Physics, University of Maryland , College Park, Maryland 20742.
出版信息
J Vac Sci Technol A. 2016 Jul;34(4):040603. doi: 10.1116/1.4949260. Epub 2016 May 24.
The authors studied the effect of the temperature and chemical state of the chamber wall on process performance for atomic layer etching of SiO using a steady-state Ar plasma, periodic injection of a defined number of CF molecules, and synchronized plasma-based Ar ion bombardment. To evaluate these effects, the authors measured the quartz coupling window temperature. The plasma gas phase chemistry was characterized using optical emission spectroscopy. It was found that although the thickness of the polymer film deposited in each cycle is constant, the etching behavior changed, which is likely related to a change in the plasma gas phase chemistry. The authors found that the main gas phase changes occur after CF injection. The CF and the quartz window react and generate SiF and CO. The emission intensity changes with wall surface state and temperature. Therefore, changes in the plasma gas species generation can lead to a shift in etching performance during processing. During initial cycles, minimal etching is observed, while etching gradually increases with cycle number.
作者使用稳态氩等离子体、定期注入一定数量的CF分子以及同步的基于等离子体的氩离子轰击,研究了腔室壁的温度和化学状态对SiO原子层蚀刻工艺性能的影响。为了评估这些影响,作者测量了石英耦合窗的温度。使用光发射光谱对等离子体气相化学进行了表征。结果发现,尽管每个循环中沉积的聚合物膜厚度是恒定的,但蚀刻行为发生了变化,这可能与等离子体气相化学的变化有关。作者发现,主要的气相变化发生在CF注入之后。CF与石英窗反应并生成SiF和CO。发射强度随壁面状态和温度而变化。因此,等离子体气体种类生成的变化会导致加工过程中蚀刻性能的偏移。在初始循环中,观察到的蚀刻量最小,而蚀刻量随着循环次数逐渐增加。
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