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Development of a prototype superconducting radio-frequency cavity for conduction-cooled accelerators

Authors :
Ciovati, G.
Anderson, J.
Balachandran, S.
Cheng, G.
Coriton, B.
Daly, E.
Dhakal, P.
Gurevich, A.
Hannon, F.
Harding, K.
Holland, L.
Marhauser, F.
McLaughlin, K.
Packard, D.
Powers, T.
Pudasaini, U.
Rathke, J.
Rimmer, R.
Schultheiss, T.
Vennekate, H.
Vollmer, D.
Source :
Phys. Rev. Accel. Beams 26, 044701 (2023)
Publication Year :
2023

Abstract

The higher efficiency of superconducting radio-frequency (SRF) cavities compared to normal-conducting ones enables the development of high-energy continuous-wave linear accelerators (linacs). Recent progress in the development of high-quality Nb$_3$Sn film coatings along with the availability of cryocoolers with high cooling capacity at 4 K makes it feasible to operate SRF cavities cooled by thermal conduction at relevant accelerating gradients for use in accelerators. A possible use of conduction-cooled SRF linacs is for environmental applications, requiring electron beams with energy of $1 - 10$ MeV and 1 MW of power. We have designed a 915 MHz SRF linac for such an application and developed a prototype single-cell cavity to prove the proposed design by operating it with cryocoolers at the accelerating gradient required for 1 MeV energy gain. The cavity has a $\sim 3$ $\mu$m thick Nb$_3$Sn film on the inner surface, deposited on a $\sim4$ mm thick bulk Nb substrate and a bulk $\sim7$ mm thick Cu outer shell with three Cu attachment tabs. The cavity was tested up to a peak surface magnetic field of 53 mT in liquid He at 4.3 K. A horizontal test cryostat was designed and built to test the cavity cooled with three Gifford-McMahon cryocoolers. The rf tests of the conduction-cooled cavity, performed at General Atomics, achieved a peak surface magnetic field of 50 mT and stable operation was possible with up to 18.5 W of rf heat load. The peak frequency shift due to microphonics was 23 Hz. These results represent the highest peak surface magnetic field achieved in a conduction-cooled SRF cavity to date and meet the requirements for a 1 MeV energy gain.

Details

Database :
arXiv
Journal :
Phys. Rev. Accel. Beams 26, 044701 (2023)
Publication Type :
Report
Accession number :
edsarx.2302.07201
Document Type :
Working Paper
Full Text :
https://doi.org/10.1103/PhysRevAccelBeams.26.044701