Abstract The physical design and cooling test of a C-band 2MeV standing wave (SW) accelerating tube are described in this paper. The designed accelerating structure consists of 3-cell buncher and 4-cell accelerating section with a total length of about 163mm,excited with 1MW magnetron. Dynamic simulation presents that about 150mA beam pulse current and 30% capture efficiency can be achieved. By means of nonlinear Gauss fit on electron transverse distribution, the diameter of beam spot FWHM (full width at half maximum of density distribution) is about 0.55mm. Cooling test results of the accelerating tube show that frequencies of cavities are tuned to 5527MHz and the field distribution of bunching section is about 3:9:10.
Received: 18 March 2005
Revised: 12 October 2005
Accepted manuscript online:
Fund: Project supported by the Technology Research of Picosecond Electron Beam Source (Grant No 42105).
Cite this article:
Bai Wei (柏伟), Xu Zhou (许州), Jin Xiao (金晓), Li Ming (黎明) Physical design and cooling test of C-band standing wave accelerating tube 2006 Chinese Physics 15 319
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