为实现多尺度CVD工艺的宏观均匀性而设计非均匀晶圆微形貌

Nikolaos Kallikounis, George Kokkoris, Nikolaos Cheimarios, Andreas G. Boudouvis
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引用次数: 3

摘要

在CVD过程中,为了满足沿晶圆的薄膜或沉积速率均匀性,研究了附加自由度(DOF)的潜力。该调查适用于具有微地形的晶圆上沉积的情况,其中通常的做法是均匀密度的图案或特征(例如,沟槽或孔),附加的DOF作为晶圆上的特征密度。为了提高均匀性,设计了非均匀密度;因此,沉积薄膜在晶圆片上所有特征的轮廓差异将得到补偿。采用多尺度建模框架进行设计。以二甲基乙胺丙烷为原料,在低宏观均匀性条件下制备铝金属-有机(MO)气相沉积为研究对象。与相同沟槽数的均匀密度相比,多尺度计算预测,设计特征(即沟槽)的密度显著改善了晶圆上的宏观均匀性和沟槽数,均匀性超过0.95。该方法适用于特征,即晶圆上最简单的地形单元,即使实际实现特征密度的变化是困难的。同样的方法可以应用于设计包含单个器件或晶圆上的芯片的特征簇的密度。
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Designing Non-uniform Wafer Micro-topography for Macroscopic Uniformity in Multi-scale CVD Processes†

The potential of an additional degree of freedom (DOF) in the effort to meet film or deposition rate uniformity along the wafer in CVD processes is investigated. The investigation applies to cases of deposition on a wafer with micro-topography where the common practice is a uniform density of patterns or features (e.g., trenches or holes), with the additional DOF as the feature density along the wafer. A non-uniform density is designed with the objective of improving the uniformity; as a consequence, the differences in the profiles of the deposited films in all the features on the wafer will be compensated. A multi-scale modeling framework is utilized for the design. The case study is aluminum metal-organic (MO)CVD from dimethylethylamine alane under conditions of low macroscopic uniformity. Compared to a uniform density of the same number of trenches, the multi-scale computations predict that the designed density of features, namely trenches, induces a remarkable improvement of both the macroscopic uniformity and the number of trenches on the wafer where the uniformity exceeds 0.95. The methodology is applied to features, i.e., the simplest unit cell of topography on a wafer, even if practical implementation of the variation of feature density is difficult. The same methodology can be applied to design the density of a cluster of features comprising a single device, or a die on the wafer.

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来源期刊
Chemical Vapor Deposition
Chemical Vapor Deposition 工程技术-材料科学:膜
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期刊介绍: Chemical Vapor Deposition (CVD) publishes Reviews, Short Communications, and Full Papers on all aspects of chemical vapor deposition and related technologies, along with other articles presenting opinion, news, conference information, and book reviews. All papers are peer-reviewed. The journal provides a unified forum for chemists, physicists, and engineers whose publications on chemical vapor deposition have in the past been spread over journals covering inorganic chemistry, materials chemistry, organometallics, applied physics and semiconductor technology, thin films, and ceramic processing.
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