Development of a New B-Mapping System for SRF Cavity Vertical Tests

Wolff, Jonas; Gössel, Andre; Hillert, Wolfgang; Müller, Carsten; Reschke, Detlef; Steder, Lea; Tischhauser, Dimitri

doi:10.18429/JACoW-SRF2021-SUPTEV009

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BiBTeX citation export for SUPTEV009: Development of a New B-Mapping System for SRF Cavity Vertical Tests

@inproceedings{wolff:srf2021-suptev009,
  author       = {J.C. Wolff and A. Gössel and W. Hillert and C. Müller and D. Reschke and L. Steder and D. Tischhauser},
% author       = {J.C. Wolff and A. Gössel and W. Hillert and C. Müller and D. Reschke and L. Steder and others},
% author       = {J.C. Wolff and others},
  title        = {{Development of a New B-Mapping System for SRF Cavity Vertical Tests}},
  booktitle    = {Proc. SRF'21},
% booktitle    = {Proc. 20th International Conference on RF Superconductivity (SRF'21)},
  pages        = {137--141},
  eid          = {SUPTEV009},
  language     = {english},
  keywords     = {cavity, SRF, shielding, background, radiation},
  venue        = {East Lansing, MI, USA},
  series       = {International Conference on RF Superconductivity},
  number       = {20},
  publisher    = {JACoW Publishing, Geneva, Switzerland},
  month        = {10},
  year         = {2022},
  issn         = {2673-5504},
  isbn         = {978-3-95450-233-2},
  doi          = {10.18429/JACoW-SRF2021-SUPTEV009},
  url          = {https://jacow.org/srf2021/papers/suptev009.pdf},
  abstract     = {{Magnetic flux trapped in the Niobium bulk material of superconducting radio frequency (SRF) cavities degrades their quality factor and the accelerating gradient. The sensitivity of the cavity to trapped magnetic flux is mainly determined by the treatment, the geometry and the Niobium grain size and orientation. To potentially improve the flux expulsion characteristics of SRF cavities and hence the efficiency of future accelerator facilities, further studies of the trapping behavior are essential. For this purpose a so-called B-mapping system to monitor the magnetic flux along the outer cavity surface of 1.3 GHz TESLA-Type single-cell SRF cavities is currently under development at DESY. Contrary to former approaches, this system digitizes the sensor signals already inside of the cryostat to extensively reduce the number of required cable feedthroughs. Furthermore, the signal-to-noise ratio (SNR) and consequently the measuring sensitivity can be enhanced by shorter analog signal lines, less thermal noise and the Mu-metal shielding of the cryostat. In this contribution the design, the development process as well as first performance test results of the B-mapping system are presented.}},
}