基于新通量估计方法的SF6/O2/Si等离子体刻蚀形貌模拟模型的建立

2011 International Conference on Simulation of Semiconductor Processes and Devices Pub Date : 2011-10-06 DOI:10.1109/SISPAD.2011.6035063

Tomoharu Ikeda, H. Saito, F. Kawai, K. Hamada, T. Ohmine, H. Takada, V. Deshpande

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引用次数: 3

摘要

针对igbt沟槽栅的SF6/O2/Si等离子体刻蚀问题，提出了一种新的形貌模拟方法。该方法根据简单的基础实验得到的蚀刻速率和选择性，计算出形貌模拟所需的离子和氟自由基通量参数。假设O自由基通量是操作条件的函数，并通过拟合形貌模拟的蚀刻曲线与实验曲线确定函数形式。根据离子入射角对蚀刻产率的依赖性，对形貌模拟模型进行了改进。因此，可以在不同的操作条件下准确地模拟各种剖面。

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Development of SF6/O2/Si plasma etching topography simulation model using new flux estimation method

A new topography simulation method has been developed for SF6/O2/Si plasma etching of trench gates in IGBTs. This method calculates the ion and fluorine radical flux parameters required for the topography simulation from the etching rate and selectivity obtained from simple basic experiments. The O radical flux was assumed as a function of the operating conditions and the function form was determined by fitting etching profiles of the topography simulation to those of the experiment. The model used in the topography simulation was improved in terms of the etching yield dependence on the ion incidence angle. As a result, a large variety of profiles could be simulated accurately under different operational conditions.

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2011 International Conference on Simulation of Semiconductor Processes and Devices

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