Title :
Status and outlook for high power processing of 1.3 GHz TESLA multicell cavities
Author :
Kirchgessner, J. ; Barnes, P. ; Bartelson, L. ; Champion, M. ; Crawford, C. ; Edwards, H. ; Graber, J. ; Koepke, K. ; Kuchnir, M. ; Matheisen, A. ; Metzger, D. ; Moffat, D. ; Muller, H. ; Padamsee, H. ; Pekeler, M. ; Pfeffer, H. ; Schmuser, P. ; Sears, J.
Author_Institution :
Lab. of Nucl. Studies, Cornell Univ., Ithaca, NY, USA
Abstract :
In order to increase the usable accelerating gradient in Superconducting TESLA cavities, the field emission threshold barrier must be raised. As has been previously demonstrated on S-Band cavities, a way to accomplish this is with the use of high peak power RF processing. A transmitter with a peak power of 2 MWatt and 300 μsec pulse length has been assembled and has been used to process TESLA cavities. Several five cell TESLA cavities at 1.3 GHz have been manufactured for this purpose. This transmitter and the cavities will be described and the results of the tests will be presented
Keywords :
beam handling equipment; cavity resonators; 1.3 GHz; 1.3 GHz TESLA multicell cavities; 2 MW; 300 mus; S-Band cavities; Superconducting TESLA cavities; accelerating gradient; field emission threshold barrier; high peak power RF processing; high power processing; pulse length; transmitter; Acceleration; Accidents; Electrooptic modulators; Explosives; Klystrons; Manufacturing; Modulation coding; Radio frequency; Testing; Vacuum breakdown;
Conference_Titel :
Particle Accelerator Conference, 1993., Proceedings of the 1993
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-1203-1
DOI :
10.1109/PAC.1993.308730
