A high quality surface finish grinding process to produce total reflection mirror for x-ray fluorescence analysis
Hitoshi Ohmori, Shinjiro Umezu, Yunji Kim, Yoshihiro Uehara, Hiroshi Kasuga, Teruko Kato, Nobuhide Itoh, Syuhei Kurokawa, Takayuki Kusumi, Yugo Sugawara, Shinsuke Kunimura. A high quality surface finish grinding process to produce total reflection mirror for x-ray fluorescence analysis[J]. International Journal of Extreme Manufacturing, 2020, 2(1): 015101.
[1] Mimura H et al 2007 Efficient focusing of hard x-rays to 25 nm by a total reflection mirror Appl. Phys. Lett. 90 051903
[2] Kunimura S and Kawai J 2010 Polychromatic excitation improves detection limits in total reflection x-ray fluorescence analysis compared with monochromatic excitation Analyst 135 1909
[3] Perlman E S, Rappaport S A, Christiansen W A, Ng Y J, DeVore J and Pooley D 2015 New constraints on quantum gravity from x-ray and gamma-ray observations Astrophys. J. 805 10
[4] Poyneer L A, McCarville T, Pardini T, Palmer D, Brooks A, Pivovaroff M J and Macintosh B 2014 Sub-nanometer flattening of 45 cm long, 45 actuator x-ray deformable mirror Appl. Opt. 53 3404
[5] Yin L and Huang H 2008 Brittle materials in nano-abrasive fabrication of optical mirror-surfaces Prec. Eng. 32 336
[6] Namba Y, Kobayashi H, Suzuki H, Yamashita K and Taniguchi N 1998 Ultra-precision surface grinding of chemical vapor deposited silicon carbide for x-ray mirrors using resinoid-bonded diamond wheels Ann. CIRP 48 277
[7] Yamaguchi H, Riveros R E, Mitsuishi I, Takagi U, Ezoe Y and Yamasaki N 2010 Magnetic field-assisted finishing for micropore x-ray focusing mirrors fabricated by deep reactive ion etching Ann. CIRP 59 351
[8] Ohmori H and Nakagawa T 1990Mirror surface grinding of silicon wafers with electrolytic in-process dressing Ann. CIRP 39 329
[9] Mori Y, Yamauchi K and Endo K 1987 Elastic emission machining Prec. Eng. 9 123
[10] Mimura H, Ohmori H and Yamauchi K 2012 Development of focusing system for x-ray free electron laser Key Eng. Mater. 516 251
[11] Kunimura S, Kudo S, Nagai H, Nakajima Y and Ohmori H 2013 Portable total reflection x-ray fluorescence spectrometer with small vacuum chamber Rev. Sci. Instrum. 84 046108
[12] Klockenk?mper R and Bohlen A V 2015 Total-Reflection X-ray Fluorescence Analysis and Related Methods (New York: Wiley)
[13] Eidelman E D, Siklitsky V I, Sharonova L V, Yagovkina M A, Vul A Y, Takahashi M, Inakuma M and ōsawa E 2005 A stable suspension of single ultra-nanocrystalline diamond particles Diam. Relat. Mater. 14 1765
[14] Kasuga H, Kato T, Itoh N, Kameyama Y and Ohmori H 2011 Grinding characteristics of sapphire (0001) surface with metal bonded grinding wheel containing nano-diamond Trans. MIRAI Micro-Fabr. Green Technol. 2 27
[15] Ohmori H, Marinescu I D and Katahira K 2011 Electrolytic In- Process Dressing (ELID) Technologies: Fundamentals and Applications (New York: CRC Press)
[16] Jeong H D, Park K H and Cho K K 2007 CMP pad break-in time reduction in silicon wafer polishing Ann. CIRP 56 357
[17] Kurokawa S, Toyama T, Hayashi T, Suda E and Tokuda J 2017 Controllable CMP of oxide film by using colloidal ceria slurry Proc. Int. Conf. Planarization/ CMP Technol. ICPT2017 p 177
[18] Daillant J and Gibaud A 2009 X-ray and Neutron Reflectivity, Principles and Applications (Berlin: Springer)
Hitoshi Ohmori, Shinjiro Umezu, Yunji Kim, Yoshihiro Uehara, Hiroshi Kasuga, Teruko Kato, Nobuhide Itoh, Syuhei Kurokawa, Takayuki Kusumi, Yugo Sugawara, Shinsuke Kunimura. A high quality surface finish grinding process to produce total reflection mirror for x-ray fluorescence analysis[J]. International Journal of Extreme Manufacturing, 2020, 2(1): 015101.
PDF全文
