Speaker
Description
The current magnet technology used for the FCC-ee baseline includes the traditional superconductive magnets, and many research teams also start studying the promising technology of High Temperature Superconductor (HTS) as a substitute solution. However, there is a singular alternative which could improve the flexibility, the compactness and the sustainability of the accelerator’s magnets: the coupling of the HTS technology with the Canted Cosine Theta (CCT) winding process. This study is dedicated to present this technology mix applied to the final focusing quadrupole QC1L1, the last magnet before the Interaction Point (IP) in the critical area of the Machine Detector Interface (MDI).
The complex induced challenges are exposed and detailed, from the prototype's design, passing to the manufacturing process, to the prototype’s qualification in cold tests environment.
In addition, this innovative magnet technology induces the development of a customised cooled beam pipe. By figuring out a design filling out the physic and mechanical constraints, it brought very challenging specifications. Thus, the study also presents and details the numerical simulation results, the manufacturing steps, as well as the prototype validation through dedicated test campaign.
| In which format do you inted to submit your paper? | LaTeX |
|---|