Author: Marchetti, B.
Paper Title Page
MOPMB015 Technical Design Considerations About the SINBAD-ARES Linac 112
 
  • B. Marchetti, R.W. Aßmann, U. Dorda, K. Flöttmann, M. Hachmann, I. Hartl, J. Herrmann, M. Hüning, G. Kube, F. Ludwig, F. Mayet, M. Pelzer, I. Peperkorn, S. Pfeiffer, H. Schlarb, M. Titberidze, G. Vashchenko, M.K. Weikum, L. Winkelmann, K. Wittenburg, J. Zhu
    DESY, Hamburg, Germany
  • R. Rossmanith
    KIT, Karlsruhe, Germany
 
  The SINBAD facility (Short and INnovative Bunches and Accelerators at Desy) is foreseen to host various experiments in the field of production of ultra-short electron bunches and novel high gradient acceleration technique. The SINBAD linac, also called ARES (Accelerator Research experiment at SINBAD), will be a conventional S-band linear RF accelerator allowing the production of low charge (0.5 pC - few pC) ultra-short electron bunches (FWHM, length <= 1 fs - few fs) having 100 MeV energy. In this paper we present the current status of the technical design considerations, motivate the foreseen diagnostics for the RF gun commissioning and present examples of foreseen applications.  
DOI • reference for this paper ※ DOI:10.18429/JACoW-IPAC2016-MOPMB015  
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THPMB010 Dogleg Design for the SINBAD Linac 3244
 
  • J. Zhu, R.W. Aßmann, U. Dorda, B. Marchetti
    DESY, Hamburg, Germany
  • R. Rossmanith
    KIT, Karlsruhe, Germany
 
  The SINBAD facility (Short and INnovative Bunches and Accelerators at DESY) is foreseen to provide sub-fs to tens of fs electron bunches for the R&D of novel acceleration concepts and applications, e.g. Laser Wake-Field Acceleration (LWFA), Dielectric Laser Acceleration (DLA) and medical imaging. We present the design study of the dogleg at the SINBAD linac, which is capable of delivering ultra-short bunches to the second beamline. The longitudinal dispersion of the dogleg can be finely tuned so that it can either transport the ultra-short bunch produced upstream by velocity bunching, or compress the incoming long bunch. The achievable beam parameters are investigated by start-to-end simulations.  
DOI • reference for this paper ※ DOI:10.18429/JACoW-IPAC2016-THPMB010  
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