硅自间隙团簇形成和溶解的校准模型

C. Heitzinger, S. Selberherr
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引用次数: 0

摘要

硅自间隙团簇的形成和溶解与TED(瞬态增强扩散)现象有关,而TED又在半导体器件的制造中变得重要。基于热步骤中自间隙团簇数量的理论考虑和测量,我们有兴趣寻找一个合适的自间隙团簇形成和溶解的模型,并为两种不同的技术(即材料参数集)提取相应的模型参数。为了实现逆建模部分的自动化,采用了通用优化框架。除了解决这个问题外,同样的设置还可以解决过程仿真领域中出现的各种逆建模问题。最后对结果进行了讨论,并与之前的模型进行了比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A calibrated model for silicon self-interstitial cluster formation and dissolution
The formation and dissolution of Silicon self-interstitial clusters is linked to the phenomenon of TED (transient enhanced diffusion) which in turn has gained importance in the manufacturing of semiconductor devices. Based on theoretical considerations and measurements of the number of self-interstitial clusters during a thermal step we were interested in finding a suitable model for the formation and dissolution of self-interstitial clusters and extracting corresponding model parameters for two different technologies (i.e., material parameter sets). In order to automate the inverse modeling part a general optimization framework was used. Additional to solving this problem the same setup can solve a wide range of inverse modeling problems occurring in the domain of process simulation. Finally the results are discussed and compared with a previous model.
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