Micha Haase, Mudassir Ali Sayyed, Jan Langer, Danny Reuter, Harald Kuhn
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引用次数: 0
摘要
在本研究中,我们介绍了基于光谱聚类原理的光谱冗余减少法(MSRR),用于分析干法蚀刻过程中的 OES(光学发射光谱)数据。为此,我们将 OES 数据转换为抽象图形矩阵,其相关特征向量可直接显示数据集中的异常情况。我们开发了一种方法,可以还原等离子体结构化过程产生的时间分辨光学发射光谱,从而可以通过算法检测到单个发射线,这些发射线的时间行为与时间分辨整体光谱的集体行为不同。我们没有考虑在整个过程中表现一致的发射线比例。我们的工作可能会应用于将 OES 用作过程监控技术,特别是低压等离子体加工。所开发方法的主要优点是保持了原始数据的比例,因此尽管数据有所减少,但仍可进行物理解释。
About the Data Analysis of Optical Emission Spectra of Reactive Ion Etching Processes—The Method of Spectral Redundancy Reduction
In this study, we present the Method of Spectral Redundancy Reduction (MSRR) for analyzing OES (optical emission spectroscopy) data of dry etching processes based on the principles of spectral clustering. To achieve this, the OES data are transformed into abstract graph matrices whose associated eigenvectors directly indicate anomalies in the data set. We developed an approach that allows for the reduction in temporally resolved optical emission spectra from plasma structuring processes in such a way that individual emission lines can be algorithmically detected, which exhibit a temporal behavior different from the collective behavior of the temporally resolved overall spectrum. The proportion of emission lines that behave consistently throughout the entire process duration is not considered. Our work may find applications in which OES is used as a process-monitoring technique, especially for low-pressure plasma processing. The major benefit of the developed method is that the scale of the original data is kept, making physical interpretations possible despite data reductions.
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