Status of High Power Tests of Normal Conducting Single-Cell Standing Wave Structures.

摘要

Our experiments are directed toward the understanding of the physics of rf breakdown in systems that can be used to accelerate electron beams at approx. 11.4 GHz. The structure geometries have apertures, stored energy per cell, and rf pulse duration close to that of the NLC or CLIC. The breakdown rate is the main parameter that we use to compare rf breakdown behavior for different structures at a given set of rf pulse parameters (pulse shape and peak power) at 60 Hz repetition rate. In our experiments, the typical range of the breakdown rate is from one per few hours to approx. 100 per hour. To date we have tested 29 structures. We consistently found that after the initial conditioning, the behavior of the breakdown rate is reproducible for structures of the same geometry and material, and the breakdown rate dependence on peak magnetic fields is stronger than on peak surface electric fields for structures of different geometries. Below we report the main results from tests of seven structures made from hard copper, softcopper alloys and hard-copper alloys. Additional details on these and other structures will be discussed in future publications.