Abstract
Reproducible operation at high performances of superconducting cavities is required for linear accelerators. High beta elliptical cavities are thus of concern and, to achieve required performances for such resonators, surface preparation including electropolishing is recommended. We have designed and operate a setup for electropolishing in the vertical position of multicell cavities in order to: (i) obtain high yield with large elliptical cavities for Superconducting Linac (SPL) or European Spallation Source projects; (ii) develop a reference installation demonstrating that this process is appropriate for the large scale treatment of cavities in industry. The setup described here is the first one able to electropolish vertically multicell cavities with circulating acid and high safety standards. This equipment makes it possible to use a wide range of parameters such as voltage, acid flow rate, temperature, and nitrogen injection with an R purpose in mind. Optimization is studied using modeling with COMSOL software for different cavities. As examples, we present some results for the 704 MHz high-beta SPL cavity and the 1300 MHz International Linear Collider cavity and show the influence of cathode shape on both acid flow and electric field distribution during the process. Importance of the size of the cavity and first results achieved on single-cell and nine-cell cavities will be discussed.
Highlights
Electropolishing (EP) is believed to be the most desirable treatment for SRF cavities [1]
The cavity is electropolished following a process developed by KEK [1]: A voltage is applied between the cavity and a coaxial aluminum rod cathode while the cavity is set in horizontal position, rotating, and half-filled with the circulating acid
Cornell University has proved that VEP with static acid could make it possible to reach high gradients [6], and as VEP is suitable to the treatment of large elliptical cavities, we have developed at CEA-Saclay a VEP setup sized for the largest high beta and high gradient cavity we have designed, a 704 MHz Superconducting Linac (SPL) cavity
Summary
Electropolishing (EP) is believed to be the most desirable treatment for SRF cavities [1]. The cavity is electropolished following a process developed by KEK [1]: A voltage is applied between the cavity and a coaxial aluminum rod cathode while the cavity is set in horizontal position, rotating, and half-filled with the circulating acid. This process makes it possible to reach high gradients on nine-cell elliptical Tesla-shape cavities for electrons and has been chosen for the surface treatment of cavities for the European X-ray Free Electron Laser linac. The acid flow and electrical field distribution expected during VEP will be described, as well as first results achieved on single-cell cavities
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