Abstract
Abstract
Two niobium elliptical 1.3 GHz superconducting radio frequency (SRF) electron photoinjector cavities were successfully recovered after mechanical inner surface damage. Both cavities had deep imprints in the critical high surface electric field area around the photoelectric cathode position. The lengthy repair procedure, which consists of surface inspection and defect characterization, mechanical polishing and light chemical etching is described in detail. In the process, a new high pressure rinsing (HPR) nozzle system optimized for the special photoinjector geometry was also developed. Subsequent cold RF tests demonstrate complete performance recovery. This is the first time that photoinjector cavities damaged in the high electric-field region could be recovered.
Reference31 articles.
1. Final acceptance test of the srf photo-injector cold string for the berlinpro energy recovery linac;Neumann,2016
2. Fast piezoelectric actuator control of microphonics in the CW Cornell ERL injector cryomodule;Conway,2009
3. Adapting TESLA technology for future cw light sources using HoBiCaT;Kugeler;Rev. Sci. Instrum.,2010
4. SRF Photoinjector Cavity for bERLin-Pro;Neumann,2013