Observation of the acceleration of a single bunch by using the induction device in the KEK proton synchrotron.

@article{Takayama2005ObservationOT,
  title={Observation of the acceleration of a single bunch by using the induction device in the KEK proton synchrotron.},
  author={Ken Takayama and Kunio Koseki and Kota Torikai and Akira Tokuchi and Eiji Nakamura and Yoshio Arakida and Yoshito Shimosaki and M. Wake and Tadaaki Kouno and Kazuhiko Horioka and Susumu Igarashi and Taiki Iwashita and Atsushi Kawasaki and Jun-ichi Kishiro and Makoto Sakuda and Hikaru Sato and Makoto Shiho and Masashi Shirakata and Tsuyoshi Sueno and Takeshi Toyama and Masao Watanabe and Isao Yamane},
  journal={Physical review letters},
  year={2005},
  volume={94 14},
  pages={
          144801
        }
}
A single rf bunch in the KEK proton synchrotron was accelerated with an induction acceleration method from the injection energy of 500 MeV to 5 GeV. 

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References

SHOWING 1-10 OF 20 REFERENCES

unpublished). TABLE I. Results quantitatively compared with the prediction

  • PRL 94,
  • 2005

Nucl

  • Inst. Meth. A 451, 304
  • 2000

Graduate university of advanced studies

Proceedings of PAC2003, TPPB093. 4 TABLE I: Results quantitatively compared with the prediction

  • Pu ls e w av efo rm ( ar b
  • 2003

Proceedings of RPIA2002 (KEK Proceedings 18; E. G. Cook, Proceedings of XX International Linac Conference

  • Proceedings of RPIA2002 (KEK Proceedings 18; E. G. Cook, Proceedings of XX International Linac Conference
  • 2000

Proceedings of RPIA2002 (KEK Proceedings 2002-30)

  • 18 (2003), E. G. Cook, Proceedings of XX Int. Linac Conf., Monerey, CA 663(2000), I. Smith, Phys. Rev. ST-AB 7, 064801
  • 2004

Phys. Rev

  • Phys. Rev
  • 1945

Moscow) 9

  • 153
  • 1945

Proceedings of PAC2003

  • Proceedings of PAC2003
  • 2003

Phys. Rev. ST Accel. Beams

  • Phys. Rev. ST Accel. Beams
  • 2004