Quantitative Characterization of Roughness at SiO_2/Si Interfaces by Using Cross-sectional High-resolution Transmission Electron Microscopy

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We have developed a new method that can quantitatively characterize the correlation length and the asperity height of the roughness at a SiO_2/Si interface. This method involves, first, <110>cross-sectional high-resolution transmission electron microscopy(HREM)of the interfaces in very thin specimens(£5 nm thick). Pairs of closely spaced Si atomic columns appear in the HREM image as black dots. The next step involves measuring the HREM image intensity distribution along each black-dotlayer parallel to the interface. Then these intensity distributions, which are affected by interfacial roughness, are examined layer-by-layer by Fourier analysis. Moreover, to enable detailed observation of the interfacial roughness, we developed a specimen-preparation technique in which CF_4-O_2 plasma etching is used to remove ion-milling artifacts. We demonstrate that this examination can provide quantitative indices of the interfacial roughness. Our method can also detect interfacial roughness that has a correlation length of only a few nanometers.
社団法人応用物理学会の論文
2000-03-15