Title :
Prototype microwave source for a relativistic klystron two-beam accelerator
Author :
Houck, T. ; Deadrick, F. ; Giordano, G. ; Henestroza, E. ; Lidia, S. ; Reginato, L. ; Vanecek ; Westenskow, G.A. ; Yu, S.
Author_Institution :
Lawrence Livermore Nat. Lab., CA, USA
fDate :
6/1/1996 12:00:00 AM
Abstract :
A test facility is established at Lawrence Berkeley National Laboratory (LBNL) to study RF power sources for linear colliders based on the relativistic klystron two-beam accelerator (RK-TBA) concept. A 24-m long prototype source, the RTA, will be constructed in this facility to study physics, engineering, and cost issues related to RK-TBAs. The RTA will generate 200-ns 180-MW RF (11.4-GHz) pulses from each of eight output ports. The major components of the RTA include a 2.8-MeV 1.2-kA induction injector, transverse beam modulator, adiabatic compressor, and RF extraction section. The beam energy is increased to 4 MeV and the RF bunch length is shortened from 240° to 110° in the adiabatic compressor. The 8-m long extraction section includes 40 induction accelerator cells to maintain beam energy at an average 4 MeV, eight equally spaced RF output structures, and a ppm quadrupole focusing system. In this paper, we describe the RTA and present results of component testing and computer simulations
Keywords :
accelerator RF systems; colliding beam accelerators; klystrons; linear accelerators; linear colliders; relativistic electron beam tubes; 1.2 kA; 11.4 GHz; 180 MW; 2.8 MeV; 4 MeV; RF bunch length; RF extraction section; RF power sources; adiabatic compressor; beam energy; component testing; computer simulations; linear colliders; microwave source; quadrupole focusing system; relativistic klystron two-beam accelerator; transverse beam modulator; Design engineering; Klystrons; Laboratories; Life estimation; Linear accelerators; Physics; Power engineering and energy; Prototypes; Radio frequency; Test facilities;
Journal_Title :
Plasma Science, IEEE Transactions on
