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Collider-quality electron bunches from an all-optical plasma photoinjector

Published 12 Mar 2025 in physics.acc-ph and physics.plasm-ph | (2503.09557v2)

Abstract: We present a novel approach for generating collider-quality electron bunches using a plasma photoinjector. The approach leverages recently developed techniques for the spatiotemporal control of laser pulses to produce a moving ionization front in a nonlinear plasma wave. The moving ionization front generates an electron bunch with a current profile that balances the longitudinal electric field of an electron beam-driven plasma wave, creating a uniform accelerating field across the bunch. Particle-in-cell (PIC) simulations of the ionization stage show the formation of an electron bunch with 220 pC charge and low emittance ($\epsilon_x = 171$ nm-rad, $\epsilon_y = 76$ nm-rad). Quasistatic PIC simulations of the acceleration stage show that the bunch is efficiently accelerated to 20 GeV over 2 meters with a final energy spread of less than 1\% and emittances of $\epsilon_x = 177$ nm-rad and $\epsilon_y = 82$ nm-rad. This high-quality electron bunch meets the requirements outlined by the Snowmass process for intermediate-energy colliders and compares favorably to the beam quality of proposed and existing accelerator facilities. The results establish the feasibility of plasma photoinjectors for future collider applications making a significant step towards the realization of high-luminosity, compact accelerators for particle physics research.

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