The study of interface quality in HfO2/Si films probed by second harmonic generation

Journal of Physics D: Applied Physics Pub Date : 2024-07-11 DOI:10.1088/1361-6463/ad61f9

Li Ye, Libo Zhang, Shaotong Wang, Weiwei Zhao, Chongji Huang, Wenshuai Gao, Xue Liu, Tiaoyang Li, Tao Li, Tai Min, Mingliang Tian, Xuegang Chen

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Abstract

Time-dependent second harmonic generation (TD-SHG) is an emergent sensitive and non-contact method to qualitatively/quantitively characterize the semiconductor materials, which is closely related to the interfacial electric field. Here, the TD-SHG technique is used to study the interface quality of atomic layer deposited 15 nm HfO2/Si (n-type/p-type) samples, which is compared to the conventional electrical characterization method. A relation between the interface state density and the time constant extracted from TD-SHG is revealed, indicating that TD-SHG is an effective method to evaluate the interface state density. In addition, the dopant type and dopant density can be disclosed by resolving the dynamic process of TD-SHG. The scenario of interfacial electric field between the initial electric field and the laser-induced electric field is proposed to explain the time-dependent evolution of SHG signal. In conclusion, the TD-SHG is a sensitive and non-contact method as well as simple and fast to characterize the semiconductor materials, which may facilitate the semiconductor in-line testing.

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利用二次谐波发生探测 HfO2/Si 薄膜中的界面质量

随时间变化的二次谐波发生（TD-SHG）是一种新兴的灵敏、非接触式半导体材料定性/定量表征方法，与界面电场密切相关。本文采用 TD-SHG 技术研究了原子层沉积 15 nm HfO2/Si（n 型/p 型）样品的界面质量，并与传统的电学表征方法进行了比较。结果表明，界面态密度与 TD-SHG 提取的时间常数之间存在关系，表明 TD-SHG 是评估界面态密度的一种有效方法。此外，通过解析 TD-SHG 的动态过程，还可以揭示掺杂类型和掺杂密度。提出了初始电场和激光诱导电场之间的界面电场情景，以解释随时间变化的 SHG 信号演变。总之，TD-SHG 是一种灵敏、非接触、简单、快速的半导体材料表征方法，可为半导体在线测试提供便利。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Physics D: Applied Physics

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