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arxiv: 2308.13432 · v1 · pith:V44JBL6Nnew · submitted 2023-08-25 · ⚛️ physics.acc-ph · physics.comp-ph· physics.plasm-ph

Dephasingless laser wakefield acceleration in the bubble regime

classification ⚛️ physics.acc-ph physics.comp-phphysics.plasm-ph
keywords laserpulsewakefieldaccelerationdephasingenergyacceleratingaccelerators
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Laser wakefield accelerators (LWFAs) have electric fields that are orders of magnitude larger than those of conventional accelerators, promising an attractive, small-scale alternative for next-generation light sources and lepton colliders. The maximum energy gain in a single-stage LWFA is limited by dephasing, which occurs when the trapped particles outrun the accelerating phase of the wakefield. Here, we demonstrate that a single space-time structured laser pulse can be used for ionization injection and electron acceleration over many dephasing lengths in the bubble regime. Simulations of a dephasingless laser wakefield accelerator driven by a 6.2-J laser pulse show 25 pC of injected charge accelerated over 20 dephasing lengths (1.3 cm) to a maximum energy of 2.1 GeV. The space-time structured laser pulse features an ultrashort, programmable-trajectory focus. Accelerating the focus, reducing the focused spot-size variation, and mitigating unwanted self-focusing stabilize the electron acceleration, which improves beam quality and leads to projected energy gains of 125 GeV in a single, sub-meter stage driven by a 500-J pulse.

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