蒙特卡罗溅射模拟与特征尺度轮廓模拟的耦合及其在金属间介质背蚀刻模拟中的应用

2010 International Conference on Simulation of Semiconductor Processes and Devices Pub Date : 2010-09-01 DOI:10.1109/SISPAD.2010.5604574

E. Baer, D. Kunder, J. Lorenz, M. Sekowski, U. Paschen

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引用次数: 2

摘要

我们展示了蒙特卡罗溅射模拟与溅射蚀刻过程中轮廓演变的特征尺度模拟的耦合。通过蒙特卡罗溅射模拟，确定了溅射产率与入射角和离子撞击表面能量的关系。由此获得的产率曲线被送入特征尺度蚀刻轮廓模拟器，该模拟器基于这些溅射产率曲线和对放置在溅射反应器中的衬底计算的离子通量来预测局部蚀刻速率。为了验证模拟结果，研究了金属线之间氧化硅的沉积和反蚀刻(在氩等离子体中)过程序列。假设离子能量为250 eV，我们可以一致地再现实验观察到的剖面。

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Coupling of Monte Carlo sputter simulation and feature-scale profile simulation and application to the simulation of back etching of an intermetal dielectric

We demonstrate the coupling of Monte Carlo sputter simulation with feature-scale simulation of profile evolution during sputter etching. With the Monte Carlo sputter simulation, the dependence of the sputter yield on the angle of incidence and on the energy of ions impinging onto the surface is determined. The yield curves obtained thereby are fed into a feature-scale etching profile simulator which predicts the local etch rates based on these sputter yield curves and on ion fluxes which are calculated for a substrate placed in a sputter reactor. For validating the simulations, a process sequence consisting of deposition and back etching (in an argon plasma) of silicon oxide between metal lines has been studied. Assuming an ion energy of 250 eV allows us to consistently reproduce profiles observed experimentally.

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2010 International Conference on Simulation of Semiconductor Processes and Devices

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