Optical and Morphological Characterization of Nanoscale Oxides Grown in Low-Energy H+-Implanted c-Silicon

Micro Pub Date : 2024-07-18 DOI:10.3390/micro4030027

Anna Szekeres, Sashka Alexandrova, M. Anastasescu, H. Stroescu, Mariuca Gartner, Péter Petrik

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Abstract

Nanoscale oxides grown in c-silicon, implanted with low-energy (2 keV) H+ ions and fluences ranging from 1013 cm−2 to 1015 cm−2 by RF plasma immersion implantation (PII), have been investigated. The oxidation of the implanted Si layers proceeded in dry O2 at temperatures of 700 °C, 750 °C and 800 °C. The optical characterization of the formed Si/SiOx structures was conducted by electroreflectance (ER) and spectroscopic ellipsometric (SE) measurements. From the ER and SE spectra analysis, the characteristic energy bands of direct electron transitions in Si are elaborated. The stress in dependence on hydrogenation conditions is considered and related to the energy shifts of the Si interband transitions around 3.4 eV. Silicon oxides, grown on PII Si at a low H+ fluence, have a non-stoichiometric nature, as revealed by IR-SE spectra analysis, while with an increasing H+ fluence in the PII Si substrates and/or the subsequent oxidation temperature the stoichiometric Si-O4 units in the oxides become predominant. The development of surface morphology is studied by atomic force microscopy (AFM) imaging. Oxidation of the H+-implanted Si surface region flattens out the surface pits created on the Si surface by H+ implants. Based on the evaluation of the texture index and mean fractal dimension, the isotropic and self-similar character of the studied surfaces is emphasized.

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低能 H+ 植入式晶体硅中生长的纳米级氧化物的光学和形态特征

研究人员通过射频等离子体浸入式植入法（PII），用低能量（2 keV）H+ 离子和 1013 cm-2 至 1015 cm-2 的通量植入了生长在 c 硅中的纳米级氧化物。植入的硅层在干燥的氧气中进行氧化，温度分别为 700°C、750°C 和 800°C。通过电反射（ER）和光谱椭偏（SE）测量，对形成的硅/氧化硅结构进行了光学表征。通过电反射光谱和椭偏光谱分析，阐述了硅中直接电子跃迁的特征能带。考虑了应力与氢化条件的关系，并将其与 3.4 eV 附近硅带间跃迁的能量移动联系起来。通过 IR-SE 光谱分析发现，在低 H+ 通量的 PII 硅上生长的硅氧化物具有非化学计量性质，而随着 PII 硅基底中 H+ 通量的增加和/或随后氧化温度的升高，氧化物中的化学计量 Si-O4 单元变得占主导地位。通过原子力显微镜（AFM）成像研究了表面形态的发展。H+ 植入硅表面区域的氧化使 H+ 植入在硅表面形成的凹坑变平。根据纹理指数和平均分形维度的评估，强调了所研究表面的各向同性和自相似性。

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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