Superconducting cavity development for the CEBAF upgrade

Author

Campisi, I.E. ; Delayen, J.R. ; Doolittle, L.R. ; Kneisel, P. ; Mammosser, J. ; Phillips, L.

Author_Institution

Thomas Jefferson Nat. Accel. Facility, Newport News, VA, USA

Volume

2

fYear

1999

fDate

1999

Firstpage

937

Abstract

Long-term plans for CEBAF at Jefferson Lab call for achieving 12 GeV in the middle of the next decade and 24 GeV after 2010. In support of these plans, an Upgrade Cryomodule, capable of providing more than twice the operating voltage of the existing CEBAF modules within the same length, is being developed. In particular, this requires the development of superconducting cavities capable of consistently operating at gradients above 12 MV/m and Q~10¹⁰. We have engaged in a complete review of all the processes and procedures involved in the fabrication and assembly of cavities, and are modifying our chemical processing, cleaning, and assembly facilities. While we have retained the cell shape of existing CEBAF cavities, the new superconducting structure will be substantially different in several respects, such as the higher-order-modes damping and the fundamental power coupling systems. Design features and experimental results are presented

Keywords

accelerator cavities; electron accelerators; linear colliders; superconducting cavity resonators; 12 GeV; 24 GeV; CEBAF cavities; CEBAF upgrade; assembly facilities; chemical processing; cleaning; fundamental power coupling systems; higher-order-modes damping; superconducting cavities; superconducting cavity development; superconducting structure; Acceleration; Assembly; Delay; Fabrication; Geometry; Power dissipation; Prototypes; Refrigeration; Shape; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Particle Accelerator Conference, 1999. Proceedings of the 1999

Conference_Location

New York, NY

Print_ISBN

0-7803-5573-3

Type

conf

DOI

10.1109/PAC.1999.795406

Filename

795406