A 10 GeV electron beam is focused by its own magnetic field reflected from thin metallic foils via near-field coherent transition radiation, as shown in the first experimental demonstration at SLAC FACET-II.
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The effective lasing length of the electron beam governs attainable peak power and pulse duration in attosecond XFELs, with trade-offs from slice energy spread, emittance, chirp, tapering, and tilt.
citing papers explorer
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Strong-field focusing of high-energy particles in beam-multifoil collisions
A 10 GeV electron beam is focused by its own magnetic field reflected from thin metallic foils via near-field coherent transition radiation, as shown in the first experimental demonstration at SLAC FACET-II.
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High-power attosecond X-ray free-electron lasers: physics and design strategy
The effective lasing length of the electron beam governs attainable peak power and pulse duration in attosecond XFELs, with trade-offs from slice energy spread, emittance, chirp, tapering, and tilt.