Title :
Superconducting intermediate-velocity cavity development for RIA
Author :
Shepard, K.W. ; Kelly, M.P. ; Fuerst, J.D. ; Kedzie, M.
Author_Institution :
Argonne Nat. Lab., IL, USA
Abstract :
This paper discusses the design and development of two types of intermediate-velocity superconducting cavity and an associated cryomodule for the RIA driver linac. The two cavity types are a 115 MHz, βGEOM = 0.15 quarter-wave resonant (QWR) cavity, and a 173 MHz, βGEOM = 0.26 coaxial half-wave cavity. The useful velocity range of the two cavity types extends from 0.1 to 0.4 c. Both cavities are well-corrected for dipole and quadrupole asymmetries in the accelerating field. A cryomodule is being designed to incorporate a separate vacuum system for the cavity vacuum in order to provide a clean, low-particulate environment for the superconducting cavities. This will enable a higher degree of surface cleanliness than has previously been the case for TEM-type, drift-tube-loaded superconducting cavities. The status of prototype cavity and cryomodule construction are reported.
Keywords :
accelerator cavities; ion accelerators; linear accelerators; particle beam dynamics; superconducting cavity resonators; 115 MHz; 173 MHz; RIA driver linac; cavity vacuum; coaxial half-wave cavity; cryomodule; dipole asymmetry; drift-tube-loaded superconducting cavities; prototype cavity; quadrupole asymmetry; quarterwave resonant cavity; superconducting intermediate-velocity cavity; vacuum system; Acceleration; Cleaning; Helium; Linear particle accelerator; Niobium; Prototypes; Steel; Superconducting devices; Superconducting microwave devices; Vacuum systems;
Conference_Titel :
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the
Print_ISBN :
0-7803-7738-9
DOI :
10.1109/PAC.2003.1289684
