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Fabrication of ultrathin Bragg beam splitter by plasma chemical vaporization machining

机译：通过等离子体化学汽化加工制造超薄布拉格分子分离器

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A novel fabrication process was proposed to produce high-quality Bragg beam splitters for hard X-ray free-electron lasers (XFELs), which should consist of thin, bend-free, and robust Bragg-case crystals without any defects. A combination of a mechanical process and plasma chemical vaporization machining was employed. High crystalline perfection of the fabricated Si(110) crystal was verified with X-ray topography and rocking curve measurements. In addition, the thickness was evaluated to be 4.4 ìm from the fringe period of the measured rocking curve. The crystal can be employed in Bragg beam splitters using the (220) Bragg reflection for X-ray pump-X-ray probe experiments with XFEL sources.

机译：提出了一种新颖的制造工艺，为硬X射线自由电子激光器（XFELS）生产高质量的布拉格分支分离器，其应由无缺陷的薄，弯曲和鲁棒的布拉格壳晶体组成。采用机械过程和等离子体化学蒸发加工的组合。用X射线形貌和摇摆曲线测量验证制造的Si（110）晶体的高结晶完美。另外，从测量的摇摆曲线的边缘周期评价厚度为4.4μm。晶体可以在Bragg束分离器中使用（220）布拉格反射，用于X线泵-X射线探针实验与Xfel源进行实验。

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《International Conference on Precision Engineering 》|2012年||共6页
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作者
T. Osaka; M. Yabashi; Y. Sano;
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中图分类 TF805.1-532;
关键词
Bragg reflection; Bragg beam splitter; X-ray free-electron laser; plasma chemical vaporization machining; topography; rocking curve; X-ray pump-X-ray probe experiment;

机译：布拉格反射;布拉格分束器;X射线自由电子激光;等离子化学蒸发加工;地形;摇摆曲线;X射线泵 - X射线探测试验;

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1. Plasma Chemical Vaporization Machining with a Pipe Electrode for Optical Fabrication: a Review [J] . Hideo Takino International Journal of Electrical Machining . 2012 ,第17期

机译：等离子体化学气相加工与管电极的光学制造：审查。
2. Fabrication of Damage-free Curved Silicon Crystal Substrate for a Focusing X-ray Spectrometer by Plasma Chemical Vaporization Machining [J] . Mao Hosoda, Kazuaki Ueda, Mikinori Nagano, Key Engineering Materials . 2010 ,第期

机译：等离子体化学汽化加工制备聚焦X射线光谱仪用无损弯曲硅晶体基板
3. Removal characteristics of plasma chemical vaporization machining with a pipe electrode for optical fabrication [J] . Hideo Takino, Kazuya Yamamura, Yasuhisa Sano, Applied optics . 2010 ,第23期

机译：用管电极进行光学制造的等离子化学汽化加工的去除特性
4. Fabrication of ultrathin Bragg beam splitter by plasma chemical vaporization machining [C] . T. Osaka, M. Yabashi, Y. Sano, Emerging technology in precision engineering XIV . 2012

机译：等离子体化学汽化加工制备超薄布拉格分束器
5. Development of a split-beam method for the improved laser machining of unsupported ceramics. [D] . Cai, Guodong. 2005

机译：改进了对无支撑陶瓷进行激光加工的分束法的开发。
6. Optimization of Gas Composition Used in Plasma Chemical Vaporization Machining for Figuring of Reaction-Sintered Silicon Carbide with Low Surface Roughness [O] . Rongyan Sun, Xu Yang, Yuji Ohkubo, -1

机译：低表面粗糙度反应烧结碳化硅等离子化学汽化加工气体成分的优化
7. Thinning of SOI by numerically controlled Plasma CVM (Chemical Vaporization Machining)-Evaluation of Machined Surface for Electron Devices- [O] . Yuzo MORI, Yasuhisa SANO, Kazuya YAMAMURA, 2003

机译：通过数控等离子体CVM（化学蒸发加工）对SOI变薄 - 用于电子器件的加工表面 -
8. Ultrahigh Vacuum Plasma Oxidation in the Fabrication of Ultrathin Silicon DioxideFilms [R] . Majamaa, T. 2000

机译：超高真空等离子体氧化制备超薄二氧化硅薄膜

Fabrication of ultrathin Bragg beam splitter by plasma chemical vaporization machining

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