三维NAND闪存器件制造过程中遇到的面内畸变和叠加误差建模

2023 24th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems (EuroSimE) Pub Date : 2023-04-17 DOI:10.1109/EuroSimE56861.2023.10100780

O. O. Okudur, Mario Gonzalez, G. Van den bosch, M. Rosmeulen

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引用次数: 0

摘要

一个典型的3-D NAND芯片被分割成几个区域，包括划线线、外围电路和存储阵列，这些区域受到不同的加工步骤和材料组合的影响，导致机械应力的显著变化。这些会在晶圆夹紧时产生模内应力梯度，导致后续加工步骤之间显著的叠加误差。在本研究中，我们展示了一种多尺度有限元方法来评估三维NAND器件制造关键加工步骤中的平面内扭曲和预期覆盖问题。研究了图案密度在器件级和模具级的影响。利用获得的结果，识别了覆盖模式表征的主要挑战，并提出了可能的解决方案。

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Modeling of in-plane distortions and overlay errors encountered during 3-D NAND flash device fabrication

A typical 3-D NAND die is segmented into several regions including the scribe lines, peripheral circuit and memory arrays, which are subjected to different processing steps and material combinations, leading to significant variations in mechanical stresses. These give rise to intra-die stress gradients upon wafer clamping, causing significant overlay errors between subsequent processing steps. In this study, we demonstrate a multi-scale finite-element methodology to evaluate the in-plane distortions and expected overlay issues at critical processing steps of 3-D NAND device fabrication. The impacts of pattern densities at the device level and die level are investigated. Using the obtained results, major challenges to characterize overlay patterns are identified and potential solutions are proposed.

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2023 24th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems (EuroSimE)

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