Physical Review Accelerators and Beams (Jun 2018)
rf losses in a high gradient cryogenic copper cavity
Abstract
The development of high brightness electron sources can enable an increase in performance and reduction in size of extreme X-ray sources such as free electron lasers (FELs). A promising path to high brightness is through larger electric fields in radio-frequency (rf) photoinjectors. Recent experiments with 11.4 GHz copper accelerating cavities at cryogenic temperatures have demonstrated 500 MV/m surface electric fields with low rf breakdown rates. However, when the surface electric fields are larger than 300 MV/m, the measured cavity quality factor, Q_{0}, decreases during the input rf pulse by up to 30%, recovering before the next rf pulse. In this paper, we present an experimental study of the rf losses, manifested as degradation of Q_{0}, in a copper cavity operated at cryogenic temperatures and high gradients. The experimental conditions range from temperatures of 10–77 K and rf pulse lengths of 100–800 ns, using surface electric fields up to 400 MV/m. We developed a model for the change in Q_{0} using measured field emission currents and rf signals. We find that the Q_{0} degradation is consistent with the rf power being absorbed by strong field emission currents accelerated inside the cavity.
