W. T. Taferner, K. Mahalingam, D. Dorsey, S. Adams
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引用次数: 0
摘要
光谱椭偏仪(SE)由于能够确定薄平行层的厚度和组成,在半导体生长监测和控制方面受到了相当大的关注。在这项工作中,我们报告了利用光谱椭偏法监测和控制分子束外延中AlGaAs的生长。了解光学常数作为组成和生长参数的函数对于建模至关重要,以便能够从测量的SE数据中提取组成和生长速率。在这项工作中,我们使用了虚拟界面近似来提取在常温和高温下生长的Al/sub x/Ga/sub 1-x/As薄膜的生长速率和组成。在高温下,Ga的粘附系数小于1。观察到900 K Ga以恒定速率生长。在高温下,Ga的生长速率下降,直到940 K时,Ga没有继续生长。在所有条件下,SE都准确地预测了观察到的生长速率。
In-situ spectral ellipsometry monitoring/control of MBE growth
Spectroscopic ellipsometry (SE) has received considerable attention for semiconductor growth monitoring and control due to its ability to determine the thickness and composition of thin parallel layers. In this work, we report on the use of spectroscopic ellipsometry for monitoring and control of AlGaAs growth in molecular beam epitaxy. Knowledge of the optical constants as a function of composition and growth parameters is essential for modeling to be able to extract the composition and growth rate from measured SE data. For this work, we have used the virtual interface approximation to extract the growth rate and composition of of Al/sub x/Ga/sub 1-x/As films grown at normal and elevated temperatures. At elevated temperatures, Ga possessed a sticking coefficient less than 1. 900 K Ga was observed to grow at a constant rate. At elevated temperatures the Ga growth rate decreased until at 940 K no continued growth was observed. Under all conditions SE accurately predicted the observed growth rates.
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