Optical and structural properties of co-sputtered Cu-Si-O and Cu-Ge-O thin films (Presentation Recording)

Lirong Sun, N. Murphy, John G. Jones, J. Grant
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Abstract

The co-sputtered Cu-Si-O and Cu-Ge-O thin films were prepared using reactive DC, pulse DC and modulated pulse power magnetron sputtering (MPPMS) on two separate Cu and Si or Cu and Ge targets simultaneously. The powers on each target and Oxygen/Argon flow ratio f(O2) were varied to have different stoichiometies determined by XPS. The film thickness, refractive index n and extinction coefficient k were extracted from in situ ellipsometry and the reactive plasma discharge was monitored by optical emission spectroscopy in real time during film growth. The grazing incident x-ray diffraction measurements reveal that the films deposited at low f(O2) have the nanocrystalline structure of cuprous Cu2O with diffraction peaks of (111) and (200). The films deposited at high f(O2) (≥ 1) have cupric oxide CuO phase. The optical constant n and k, film density and band gap of the co-sputtered film were investigated and determined by in situ ellipsometry, X-ray reflectivity and UV-Vis-NIR spectroscopy. Their structural, chemical and optical properties are able to be tuned by incorporating Cu2O, CuO and the mixtures of them into Silicon oxide or Germanium oxide matrix with varying target powers and oxygen/Argon ratio for applications in optical coatings and optical filters.
Cu-Si-O和Cu-Ge-O共溅射薄膜的光学和结构特性(呈现记录)
采用反应直流电、脉冲直流电和调制脉冲功率磁控溅射(MPPMS)分别在Cu和Si或Cu和Ge两种不同靶上制备Cu-Si- o和Cu-Ge- o共溅射薄膜。不同靶上的功率和氧/氩流量比f(O2)有不同的XPS测定化学计量。利用原位椭偏仪提取薄膜厚度、折射率n和消光系数k,并利用发射光谱实时监测薄膜生长过程中的反应等离子体放电。掠入射x射线衍射测量表明,在低f(O2)下沉积的薄膜具有Cu2O的纳米晶结构,衍射峰为(111)和(200)。在高f(O2)(≥1)条件下沉积的膜具有CuO相。利用原位椭偏、x射线反射率和紫外-可见-近红外光谱对共溅射膜的光学常数n和k、膜密度和带隙进行了研究和测定。通过将Cu2O, CuO及其混合物掺入具有不同靶功率和氧/氩比的氧化硅或氧化锗基体中,可以调节其结构,化学和光学性质,用于光学涂层和光学滤光片。
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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