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SLAC Publication: SLAC-PUB-17131
SLAC Release Date: September 11, 2017
Flat electron beam sources for DLA accelerators
Ody, Alexander.
In this paper we discuss the application of the flat beam transform to generate beams suitable for injection into slab-symmetric dielectric laser-driven accelerators (DLAs). A study of the focusing requirements to keep the particles within the tight apertures characterizing these accelerators shows the benefits of employing ultralow beam emittances. The slab geometry of the many dielectric accelerating structures strongly favors the use of flat beams with large ratio between vertical and horizon... Show Full Abstract
In this paper we discuss the application of the flat beam transform to generate beams suitable for injection into slab-symmetric dielectric laser-driven accelerators (DLAs). A study of the focusing requirements to keep the particles within the tight apertures characterizing these accelerators shows the benefits of employing ultralow beam emittances. The slab geometry of the many dielectric accelerating structures strongly favors the use of flat beams with large ratio between vertical and horizontal emittances. We employ particle tracking simulations to study the application of the flat beam transform for two injector designs, a DC non relativistic photogun and a 1.6 cell S-band RF photoinjector, obtaining in both cases emittance ratios between the horizontal and vertical plane in excess of 100 in agreement with simple analytical estimates. The 4MeV RF photoinjector study-case can be directly applied to the UCLA Pegasus beamline and shows normalized emittances down to <3nm in the vertical dimension for beam charges up to 20fC, enabling a two-stage DLA experiment. Show Partial Abstract
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  • Interest Categories: Accelerator Physics