4.6 Article

Frequency dependence of trapped flux sensitivity in SRF cavities

Journal

APPLIED PHYSICS LETTERS
Volume 112, Issue 7, Pages -

Publisher

AMER INST PHYSICS
DOI: 10.1063/1.5016525

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Funding

  1. United States Department of Energy, Offices of High Energy and Nuclear Physics
  2. DOE HEP Early Career grant
  3. United States Department of Energy [DE-AC02-07CH11359]

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In this letter, we present the frequency dependence of the vortex surface resistance of bulk niobium accelerating cavities as a function of different state-of-the-art surface treatments. Higher flux surface resistance per amount of trapped magnetic field-sensitivity-is observed for higher frequencies, in agreement with our theoretical model. Higher sensitivity is observed for N-doped cavities, which possess an intermediate value of the electron mean-free-path, compared to 120 degrees C and EP/BCP cavities. Experimental results from our study showed that the sensitivity has a non-monotonic trend as a function of the mean-free-path, including frequencies other than 1.3 GHz, and that the vortex response to the rf field can be tuned from the pinning regime to flux-flow regime by manipulating the frequency and/or the mean-free-path of the resonator, as reported in our previous studies. The frequency dependence of the trapped flux sensitivity to the amplitude of the accelerating gradient is also highlighted. (C) 2018 Author(s).

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