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Lipka, D.

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MOPD02 Orthogonal Coupling in Cavity BPM with Slots 44
 
  • D. Lipka, D. Nölle, M. Siemens, S. Vilcins
    DESY, Hamburg
  • F. Caspers
    CERN, Geneva
  • H. Maesaka, T. Shintake
    RIKEN/SPring-8, Hyogo
  • M. Stadler, D.M. Treyer
    PSI, Villigen
 
 

XFELs require high precision orbit control in the long undulator sections. Due to the pulsed operation of these systems the high precision has to be reached by single bunch measurements. So far cavity BPMs achieve the required performance and will be used at the European XFEL between each of the 116 undulators. Coupling between the orthogonal planes limits the precision of beam position measurements. A first prototype build at DESY shows a coupling between orthogonal planes of about -20 dB, but the requirement is lower than -40 dB (1%). The next generation Cavity BPM was build with tighter tolerances and mechanical changes, the orthogonal coupling is measured to be lower than -43 dB. This report discusses the various observations, measurements and improvements which were done.

 
TUOC02 Cavity BPM Designs, Related Electronics and Measured Performances 280
 
  • D. Lipka
    DESY, Hamburg
 
 

Future accelerators like the International Linear Collider and Free-Electron Lasers require beam position measurements with resolutions between few nanometres and 1 μm. Cavity Beam Position Monitors (BPM) are able to achieve the resolution. This paper shows the basic principles of this type of monitor, followed by a brief history of the developments. Since different institutes are designing Cavity BPM system for different projects, an overview is given on their recent developments including results and limitations compared with their requirements.

 

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