Title :
High electric fields in a superconducting RFQ structure
Author :
Delay, J.R. ; Shepard, K.W.
Author_Institution :
Argonne Nat. Lab., IL, USA
fDate :
3/1/1991 12:00:00 AM
Abstract :
High surface electric fields have been obtained in the first tests of a superconducting RF quadrupole device. The RF quadrupole fields were generated between niobium vanes 6.5 cm in length, with an edge radius of 2 mm and a beam aperture of 6-mm diameter. In tests at 4.2 K, the 64-MHz device operated CW at peak surface electric fields of 128 MV/m. Virtually no electron loading was observed at fields below 100 MV/m. It was possible to operate at surface fields of 210 MV/m in pulses of 1-ms duration using a 2.5-kW RF source. For the vane geometry tested, more than 10 cm2 of surface support a field greater than 90% of the peak field. The result indicates that electric fields greater than 100 MV/cm can be obtained over an appreciable area, sufficient for some accelerator applications. It also shows that superconducting RF technology may provide an extended range of options for RF quadrupole design
Keywords :
beam handling equipment; cavity resonators; electric fields; ion accelerators; linear accelerators; particle accelerator accessories; superconducting devices; 4.2 K; 64 MHz; Nb vanes; accelerator applications; cavity resonator; ion accelerator; superconducting RF quadrupole device; surface electric fields; vane geometry; Acceleration; Assembly; Blades; Couplings; Geometry; Niobium; Physics; Superconducting devices; Testing; Welding;
Journal_Title :
Magnetics, IEEE Transactions on
