Study on oxidation processes of 4H-SiC (0001) for investigation of the atomically flattening mechanism in plasma assisted polishing

机译：研究4H-SiC（0001）的氧化过程以研究等离子体辅助抛光中的原子展平机理

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In order to clarify the atomically flattening mechanism of 4H-SiC in plasma assisted polishing (PAP), a study on water vapor plasma oxidation of SiC was conducted. A cross-sectional transmission electron microscopy (XTEM) observation revealed that an atomically flat interface between the oxide layer and SiC was obtained. Three times of plasma irradiation and HF dipping were conducted on a diamond lapped surface, which completely removed the scratches, though an atomically flat surface was not obtained, due to the residual of silicon oxycarbide layer on the surface. It was considered that CeO_2 abrasives could remove both silicon oxide and silicon oxycarbide, therefore, a flat surface with well-ordered step/terrace structure could be generated by PAP.

机译：为了阐明4H-SiC在等离子体辅助抛光（PAP）中的原子扁平化机理，对SiC的水蒸气等离子体氧化进行了研究。横截面透射电子显微镜（XTEM）观察表明，在氧化物层和SiC之间获得了原子上平坦的界面。由于没有在原子上平坦的表面，由于在表面上残留有碳氧化硅层，因此在金刚石研磨的表面上进行了三次等离子辐射和HF浸渍，从而完全去除了刮痕。人们认为，CeO_2磨料可以同时去除氧化硅和碳氧化硅，因此，PAP可以生成具有整齐的台阶/露台结构的平坦表面。

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《International conference of the European Society for Precision Engineering and Nanotechnology》|2013年|137-140|共4页
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H. Deng; K. Ymamura;
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1. Experimental studies on water vapor plasma oxidation and thermal oxidation of 4H-SiC (0001) for clarification of the atomic-scale flattening mechanism in plasma assisted polishing [J] . Hui Deng, Katsuyoshi Endo, Kazuya Yamamura Materials science forum . 2014,第pta1期

机译：水蒸气等离子体氧化和4H-SiC（0001）热氧化澄清等离子体辅助抛光中原子尺度展平机理的实验研究
2. Atomic-scale flattening mechanism of 4H-SiC (0 0 0 1) in plasma assisted polishing [J] . H. Deng, K. Yamamura CIRP Annals . 2013,第1aCDaROM期

机译：等离子辅助抛光中4H-SiC（0 0 0 1）的原子尺度展平机理
3. Subsurface atomic structure of 4H-SiC (0001) finished by plasma-assisted polishing [J] . Hui Deng, Kazuya Yamamura Materials science forum . 2013,第期

机译：等离子体辅助抛光完成的4H-SiC（0001）表面亚原子结构
4. Study on oxidation processes of 4H-SiC (0001) for investigation of the atomically flattening mechanism in plasma assisted polishing [C] . H. Deng, K. Ymamura International Conference European Society for Precision Engineering and Nanotechnology . 2013

机译：4H-SiC（0001）氧化过程研究等离子体辅助抛光机构原子平化机理研究
5. Studies of the effects of fluorocarbon deposition and etching on silicon and silicon dioxide etching processes using methyl trifluoride in an inductively coupled plasma reactor, and the development of a reactive ion beam system for the study of plasma-surface interaction mechanisms. [D] . Rueger, Neal R. 1998

机译：在感应耦合等离子体反应器中研究碳氟化合物沉积和蚀刻对硅和二氧化硅蚀刻工艺的影响（使用三氟化甲基），并开发了用于研究等离子体与表面相互作用机理的反应离子束系统。
6. Competition between surface modification and abrasive polishing: a method of controlling the surface atomic structure of 4H-SiC (0001) [O] . Hui Deng, Katsuyoshi Endo, Kazuya Yamamura -1

机译：表面改性和磨料抛光之间的竞争：控制4H-SiC表面原子结构的方法（0001）
7. Optimization of the plasma oxidation and abrasive polishing processes in plasma-assisted polishing for highly effective planarization of 4H-SiC [O] . H. Deng, K. Monna, T. Tabata, 2014

机译：等离子体辅助抛光中等离子体氧化和磨料抛光过程的优化，用于4H-SIC的高效平面化
8. Atomic Mechanisms of Oxide Nucleation and Growth at the Aluminum/Oxide Interface: A High-Resolution Transmission Electron Microscopy Study [R] . Lee, J. Y. 1986

机译：铝/氧化物界面氧化物成核和生长的原子机制：高分辨率透射电子显微镜研究

Study on oxidation processes of 4H-SiC (0001) for investigation of the atomically flattening mechanism in plasma assisted polishing

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