A plasma wakefield photon accelerator combined with a plasma mirror enables inverse Compton scattering to produce high-brilliance polarized multi-GeV gamma rays, as shown in numerical simulations.
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Nonlinear plasma lenses enable a compact achromatic lattice that preserves beam emittance for several-percent energy spreads in plasma accelerator staging, with tunable R56 and better performance than magnet-based alternatives.
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Brilliant multi-GeV Compton gamma-ray source seeded by a photon accelerator
A plasma wakefield photon accelerator combined with a plasma mirror enables inverse Compton scattering to produce high-brilliance polarized multi-GeV gamma rays, as shown in numerical simulations.
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Achromatic optics using nonlinear plasma lenses for beam-quality preservation between plasma-accelerator stages
Nonlinear plasma lenses enable a compact achromatic lattice that preserves beam emittance for several-percent energy spreads in plasma accelerator staging, with tunable R56 and better performance than magnet-based alternatives.