Epitaxial growth steps and growth spirals were observed from epitaxial film appearance photograph.
从外延形貌照片中观察到了外延生长台及生长螺线。
The surface smoothness of the single crystal substrate will be the most important factor, which influences the quality of the epitaxial film growth.
单晶基片的表面光洁度指标是影响后续薄膜生长质量的重要因素。
Film thickness measurements, bicrystal X-ray diffraction experiments and surface and cross-sectional micro-photographs taken by S. E. M. for epitaxial films are also discussed.
文中还对多层膜的膜厚测量、X射线双晶衍射实验以及扫描电镜的表面象和剖面象进行了分析。
In this paper, experiment of homogeneous epitaxial, growing of single crystal diamond film by flame method in atmosphere was conducted.
采用大气下火焰法进行了金刚石单晶膜的同质外延实验。
Vapour epitaxial grown single-crystal diamond film on diamond surface was obtained by microwave reinforced chemical vapour deposition method, using hydrogen, aceton vapour as source of gas.
用氢气、丙酮蒸汽为源气体,通过微波增强的化学气相沉积方法,实现了在金刚石表面气相外延生长单晶金刚石薄膜。
The method can selectively deposit an epitaxial silicon-containing film on a silicon surface of a substrate or, alternately, non-selectively deposit a silicon-containing film on a substrate.
该方法可以在衬底的硅表面上选择性地沉积外延含硅膜,或者在衬底上非选择 性地沉积含硅膜。
The measurements of XRD, SEM and XPS show that the as - grown BNN film is epitaxial single crystal with smooth surface.
X射线衍射,扫描电子显微镜,X射线光电子能借测量表明生长的BNN膜是外延单晶膜。
So the second task is to research detailedly the grow of epitaxial LCMO film and structure characteristic and the relation between structure and characteristic .
所以本研究的第二大任务就是对LCMO巨磁阻薄膜的定向生长、结构特性分析以及结构与特性间的关系进行了较为详细的研究。
The density and contact effect of the film were improved by the introduction of a transitory high temperature treatment ahead of epitaxial growth.
提出一种在生长温区前进行短暂熔融处理的工艺手段,提高了薄膜的致密性和浸润效果。
And efficiencies of up to 14.7% were achieved on large-area low-quality substrates, showing the potential of thin-film epitaxial solar cells for industrial manufacturing.
而在大面积低质量衬底上实现效率高达14.7%。这一成果表明了薄膜外延太阳能电池工业化生产的潜力。
And efficiencies of up to 14.7% were achieved on large-area low-quality substrates, showing the potential of thin-film epitaxial solar cells for industrial manufacturing.
而在大面积低质量衬底上实现效率高达14.7%。这一成果表明了薄膜外延太阳能电池工业化生产的潜力。
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