Open AccessDesign and Start-to-End Simulation of an X-Band RF Driven Hard X-Ray FEL with LCLS Injector
Author(s) -
Yipeng Sun
Publication year - 2012
Language(s) - English
Resource type - Reports
DOI - 10.2172/1049749
Subject(s) - injector , linear particle accelerator , physics , x band , wake , radio frequency , beam (structure) , macro , optics , x ray , beam energy , computer science , telecommunications , mechanics , thermodynamics , programming language
In this note, it is briefly discussed the accelerator design and start-to-end 3D macro particles simulation (using ELEGANT and GENESIS) of an X-band RF driven hard X-ray FEL with LCLS injector. A preliminary design and LiTrack 1D simulation studies were presented before in an older publication [1]. In numerical simulations this X-band RF driven hard X-ray FEL achieves/exceeds LCLS-like performance in a much shorter overall length of 350 m, compared with 1200 m in the LCLS case. One key feature of this design is that it may achieve a higher final beam current of 5 kA plus a uniform energy profile, mainly due to the employment of stronger longitudinal wake fields in the last X-band RF linac [2]
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