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Kazama, I.

Paper Title Page
TUP054 Development of the Continuously Adjustable Permanent Magnet Quadrupole for ATF2 524
 
  • T. Sugimoto, M. Ichikawa, Y. Iwashita, I. Kazama, M. Yamada
    Kyoto ICR, Uji, Kyoto
  • T. Tauchi
    KEK, Ibaraki
 
 

A final focus quadrupole (FFQ) doublet of ILC should have excellent properties such as strong focusing, compactness and less vibrations. In a baseline design, superconducting magnet is supposed to be used, which may have some vibrations traveling through liquid helium. It may not be suitable for FFQ of ILC unless the vibration effect is proven to be negligible. Since the five-disc-singlet proposed by Gluckstern satisfies these properties including continuous adjustability, we are developing a FFQ aiming at a beam test at ATF2. Although the x-y coupling effect is carefully cancelled in the design, fabrication errors or rotation errors may break the cancellation. We are estimating the effect of these errors on the beam size at the interaction point. Two methods are currently carried out. The first one is transfer matrix calculations, which neglects fringing field and higher multipole components. The second one is beam-tracking calculation in measured or calculated magnetic field. The fabricated magnet is under adjustment measuring the magnetic field. The recent results will be presented.