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Wolfheimer, F.

Paper Title Page
MOOC03 FEM Simulations - a Powerful Tool for BPM Design 35
 
  • P. Kowina, P. Forck, W. Kaufmann, P. Moritz
    GSI, Darmstadt
  • T. Weiland, F. Wolfheimer
    TEMF, TU Darmstadt, Darmstadt
 
 

This contribution focuses on extensive simulations based on Finite Element Methods (FEM) which were successfully used for the design of several Beam Position Monitor (BPM) types. These simulations allow not only to reduce the time required for BPM prototyping but open up new possibilities for the determination of characteristic BPM features like signal strength, position sensitivity etc. Since a precise visualization of the signal propagation along the BPM structure is possible, effects like resonances, field inhomogeneties or complex cross talks between adjacent electrodes can be controlled. Moreover, modern simulation programs enable to define a charge distribution that is moving also at non relativistic velocities, which has an impact on the electromagnetic field propagation. It is shown that for slow ion beams the frequency spectrum of the BPM signal depends on the beam position. A variety of simulation methods are discussed in the context of different BPM realizations applied in hadron accelerators.

 

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