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BiBTeX citation export for MOPAB376: Design and Fabrication of a Quadrupole Resonator for SRF R&D

@inproceedings{monroy-villa:ipac2021-mopab376,
  author       = {R. Monroy-Villa and S. Gorgi Zadeh and W. Hillert and P. Putek and D. Reschke and J.H. Thie and M. Wenskat},
% author       = {R. Monroy-Villa and S. Gorgi Zadeh and W. Hillert and P. Putek and D. Reschke and J.H. Thie and others},
% author       = {R. Monroy-Villa and others},
  title        = {{Design and Fabrication of a Quadrupole Resonator for SRF R&D}},
  booktitle    = {Proc. IPAC'21},
  pages        = {1158--1161},
  eid          = {MOPAB376},
  language     = {english},
  keywords     = {SRF, cavity, quadrupole, niobium, radio-frequency},
  venue        = {Campinas, SP, Brazil},
  series       = {International Particle Accelerator Conference},
  number       = {12},
  publisher    = {JACoW Publishing, Geneva, Switzerland},
  month        = {08},
  year         = {2021},
  issn         = {2673-5490},
  isbn         = {978-3-95450-214-1},
  doi          = {10.18429/JACoW-IPAC2021-MOPAB376},
  url          = {https://jacow.org/ipac2021/papers/mopab376.pdf},
  note         = {https://doi.org/10.18429/JACoW-IPAC2021-MOPAB376},
  abstract     = {{As Nb superconducting radio-frequency (SRF) cavities are now approaching the theoretical limits of the material, a variety of different surface treatments have been developed to further improve their performance; although no fully understood theory is yet available. Small superconducting samples are studied to characterize their material properties and their evolution under different surface treatments. To study the RF properties of such samples under realistic SRF conditions at low temperatures, a test cavity called quadrupole resonator (QPR) is currently being fabricated. In this work we report the status of the QPR at Universität Hamburg in collaboration with DESY. Our device is based on the QPRs operated at CERN and at HZB and its design will allow for testing samples under cavity-like conditions, i.e., at temperatures between 2K and 8 K, under magnetic fields up to 120mT and with operating frequencies of 433 MHz, 866 MHz and 1300 MHz. Fabrication tolerance studies on the electromagnetic field distributions and simulations of the static detuning of the device, together with a status report on the current manufacturing process, will be presented.}},
}