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  1. PPL company brochure(PDFstyle、1.3MB)

    2.  Introduction of MIRRORCLE lineup[English]


  2. New!MIRRORCLE-CT system (PDFstyle、1.5MB)

  3. MIRRORCLE-CV1 & CV4 brochure (PDF style、4.3MB)

    4.  MIRRORCLE-CV1&-CV4[English]


  4. MIRRORCLE-20SX brochure(PDFstyle、2.0MB)

    5.  MIRRORCLE-20SX introduction[English]


  5. Non-Destructive Testing brochure(PDF style、0.9MB)

    6.  MIRRORCLE Non-Destructive Testing introduction[English]

CD

Contact for requirement

  1. MIRRORCLE-6X animation
  2. CD

Slide

  1. New!Electron storage ring based tabletop light source, MIRRORCLE for Analysis(PDFstyle、3.3MB) [English]

References

  1. Md. Monirul Haque, Hironari Yamada, Ahsa Moon and Mami Yamada, "Performance of the far-IR beamline of the 6 MeV tabletop  synchrotron light source ", J. Synchrotron Rad. (2009). 16
  2. D. Minkov, M. Morita, H. Nihira, and H. Yamada; “Targets Emitting Transition Radiation for Performing X-ray Lithography by the Tabletop  Synchrotron MIRRORCLE-20SX”; Nucl. Instr. Meth. Phys. Res. A, 590(2008)110-1134pdf»
  3. H. Yamada, et.al.; “Source for EUV Lithography by the Tabletop Storage Ring MIRRORCLE”; J. Micro/Nanolithography, MEMS and  MOEMS (JM3); 7(2008)043004-1:65.
  4. Book of “Tabletop synchrotron light sources and advanced applications” edited by Hironari Yamada, AIP Conference Proceedings. 902,20076.
  5. N. Toyosugi, and  H. Yamada, J. Synchrotron Rad. Vol. 14, pp.212-218,(2007).7.pdf»
  6. T. Hirai, H. Yamada, et.al.,  “Refraction contrast 11x-magnified X-rayimaging of large objects by MIRRORCLE-type table-top synchrotron”, Journal of synchrotron radiation, vol.13, pp.397-402)(2006)8. pdf»
  7. D. Minkov, H. Yamada, et.al., “Theory and characteristics of transition radiation emitted by low-energy storage-ring synchrotrons for use in X-ray lithography” Journal of Synchrotron Radiation 13, pp.336-342(2006) pdf»
  8. A.I. Kleev and H. Yamada, "Advanced theory of the photon storage ring leading to the short light pulse generation", IEEE Journal of   Quantum Electronics 39(6), (2003), pp. 1-9.
  9. H. Yamada, "Novel X-ray source based on a tabletop synchrotron and its unique features", Nuclear Instruments and Methods in Physics   Research Section B: Beam Interactions with Materials and Atoms 199, (2003), pp. 509-516.
  10. H. Yamada, "Development of the hard X-ray source based on a tabletop electron storage ring", Nucl. Inst. Meth. Phys. Res. A 467-468,   (2001), pp. 122.
  11. H. Yamada, "The Smallest Electron Storage Ring for High-Intensity Far-Infrared and Hard X-ray Productions", Journal of Synchrotron   Radiation 5 (1998) pp. 1326-1331
  12. H. Yamada, "Current status and biological research ramifications of photon storage ring as a noble infrared laser source", Advances in   Colloid and Interface Science 71-72, (1997), pp. 371-392.
  13. H. Yamada, "Super Photon Generator Using Collisions of Circulating Relativistic Electrons and Wire Targets", Japanese Journal Applied   Physics 35 (1996) pp. L182-L185.
  14. Hironari Yamada, "Compact free-electron laser based on an exact circular electron storage ring", Nucl. Inst. Meth. Phys. Res. B 79,   (1993), pp. 762-766.
  15. H.Tsutsui, H.Yamada, K.Mima, and K.Shimoda, "Behavior of the TEpj1 mode in the Photon Storage Ring", Nucl. Inst. Meth. Phys. Res. A   331, (1993), pp. 395-400.
  16. Hironari Yamada, Hiroshi Tsutsui, Daizou Amano, Shin Masui, Yosiyuki Toba, Kunioki Mima, and Koichi Shimoda, "Compact hard x-ray   source based on the photon storage ring", Review of Scientific Instruments 63(1) (1992) pp. 741-744.
  17. K. Mima, K. Shimoda, and H. Yamada, "Mode structure and amplification of radiation in the photon storage ring", IEEE Journal of   Quantum Electronics 27, (1991) pp. 2572-2579.
  18. H. Yamada, "Commissioning of AURORA: the smallest synchrotron light source", Journal of Vacuum Science & Technology B8 (6)   (1990) pp.1628.
  19. H. Yamada, "Photon Storage Ring", Jpn. J. Appl. Phys. Vol. 28 (1989) L1665-L1668.
  20. D. Minkov, H. Yamada, N. Toyosugi, T. Yamaguchi, T. Kadono, and M. Morita, "Theory and characteristics of transition radiation emitted   by low-energy storage-ring synchrotrons for use in X-ray lithography", Journal of Synchroron Radiation. Vol. 13 (2006) 336-342.

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