Pinching of the driver beam in plasma wakefields is repurposed to inject spin-polarized electrons from hydrogen halide targets, with simulations showing 50% spin preservation across parameters.
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Simulations show radiative depolarization of high-energy witness beams in wakefield accelerators depends primarily on beam alignment with the wakefield.
Proton-driven plasma wakefield acceleration can serve as an electron injector for the EIC, reaching 70% polarization and 10^34 cm^{-2}s^{-1} luminosity.
citing papers explorer
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Pinching injection in wakefields for spin-polarized electron beams
Pinching of the driver beam in plasma wakefields is repurposed to inject spin-polarized electrons from hydrogen halide targets, with simulations showing 50% spin preservation across parameters.
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Radiative depolarization of high-energy electron beams in wakefield accelerators
Simulations show radiative depolarization of high-energy witness beams in wakefield accelerators depends primarily on beam alignment with the wakefield.
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An electron injector for the Electron-Ion Collider based on proton-driven plasma wakefield acceleration
Proton-driven plasma wakefield acceleration can serve as an electron injector for the EIC, reaching 70% polarization and 10^34 cm^{-2}s^{-1} luminosity.