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Rossmanith, R.

Paper Title Page
WEPD039 First Magnetic Tests of a Superconducting Damping Wiggler for the CLIC Damping Rings 3174
 
  • D. Schoerling, M. Karppinen, R. Maccaferri
    CERN, Geneva
  • A. Ams
    IMFD, Freiberg
  • A. Bernhard, P. Peiffer
    KIT, Karlsruhe
  • R. Rossmanith
    FZK, Karlsruhe
 
 

Two damping rings (e+, e-) are foreseen for the CLIC injection chain. In each damping ring 76 two meter long wigglers will be installed. The short period (40-50 mm), combined with a gap larger than 14 mm and a requested field in the mid-plane BPeak > 2 T requires the usage of superconducting technologies to meet these requirements. To demonstrate the feasibility of this wiggler design a short-model vertical racetrack wiggler (40 mm period; 16 mm gap) was built and successfully tested at CERN. The wiggler carries a current of 730 A and 910 A and reaches a mid-plane peak field of Bpeak = 2 T and Bpeak = 2.5 T at 4.2 K and 1.9 K, respectively. The results show that the wiggler model meets the magnetic requirements of the CLIC damping rings at 1.9 K. The paper will also discuss the improvements we propose to enhance the performance in order to meet the CLIC specifications also at 4.2 K.

 
WEPD015 Inductive Shimming of Superconductive Undulators: Preparations for a Realistic Test 3117
 
  • P. Peiffer, A. Bernhard, F. Burkart, S. Ehlers
    KIT, Karlsruhe
  • T. Baumbach, S. Gerstl, A.W. Grau, R. Rossmanith
    Karlsruhe Institute of Technology (KIT), Karlsruhe
  • D. Schoerling, D. Wollmann
    CERN, Geneva
 
 

The monochromaticity and intensity of synchrotron light emitted by undulators strongly depend on the undulator field quality. For the particular case of superconductive undulators it was shown recently that their field quality can be significantly improved by an array of coupled high temperature superconductor loops attached to the surface of the superconductive undulator. Local field errors induce currents in the coupled closed superconducting loops and, as a result, the hereby generated magnetic field minimizes the field errors. In previous papers the concept was described theoretically and a proof-of-principle experiment was reported. This paper reports results of the first quantitative measurement of the phase error reduction in a 12-period short model undulator equipped with a full-scale induction shimming system.

 
WEPD016 Reduction of Dynamic Field Errors in Superconductive Undulators 3120
 
  • P. Peiffer, A. Bernhard, F. Burkart, S. Ehlers, A. Keilmann
    KIT, Karlsruhe
  • T. Baumbach, R. Rossmanith
    Karlsruhe Institute of Technology (KIT), Karlsruhe
  • D. Schoerling
    CERN, Geneva
 
 

In the superconductive undulator SCU14, installed at ANKA, time dependent drifts in the magnetic fields were observed*. Simulations with the software OPERA 3D showed, that the cause of these drifts might be leak and eddy currents in the iron body of the undulator caused by the time-varying currents and fields during current ramps, which slowly decay by ohmic losses. This assumption was crosschecked by measurements at different mockup bodies. This contribution discusses the results of the simulations and measurements and the consequential strategies for avoiding this effect.


* S. Ehlers et. al. "Magnetic field transients in superconductive undulators", in Proceedings of the Particle Accelerator Conference, Vancouver, 2009, to be published.