物理蚀刻和沉积模拟中三维效应的建模和表征

1996 International Conference on Simulation of Semiconductor Processes and Devices. SISPAD '96 (IEEE Cat. No.96TH8095) Pub Date : 1996-09-02 DOI:10.1109/SISPAD.1996.865279

Z. Hsiau, E. Kan, D. Bang, J. Mcvittie, R. Dutton

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引用次数: 0

摘要

随着晶体管特征尺寸的不断减小，互连尺寸的缩小对制造技术提出了许多新的挑战。由于机械应力和电荷对短长度或尖角导体和介电体的三维几何效应在集成电路工艺变化、漏电流和可靠性分析中变得越来越突出。在本文中，建模和表征的蚀刻和沉积的三维效果，从物理模型在二维校准，将讨论边界移动的准确性和鲁棒性，以及校准方法与直接测量。l型试验结构将作为技术实例。

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Modeling and characterization of three-dimensional effects in physical etching and deposition simulation

With the ever decreasing transistor feature sizes, scaling of interconnect has caused many new challenges in fabrication technology. Three-dimensional (3D) geometrical effects due to mechanical stress and electrical charge on short-length or sharp-corner conductors and dielectrics has become more prominent in analyses of IC process variation, leakage current and reliability. In this paper modeling and characterization of 3D effects for etching and deposition, extended from physical models calibrated in 2D, will be discussed in view of boundary movement accuracy and robustness, and methodology for calibration with direct measurements. An L-shaped test structure will be used as a technology example.

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来源期刊

1996 International Conference on Simulation of Semiconductor Processes and Devices. SISPAD '96 (IEEE Cat. No.96TH8095)

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