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arxiv: 2108.09651 · v2 · pith:NDNRINAAnew · submitted 2021-08-22 · ✦ hep-ph · physics.plasm-ph

Radiation Reaction Enhancement in Flying Focus Pulses

classification ✦ hep-ph physics.plasm-ph
keywords focuslaserpulseachievedexperimentalffpsflyingidentification
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Radiation reaction (RR) is the oldest still-unsolved problem in electrodynamics. In addition to conceptual difficulties in its theoretical formulation, the requirement of exceedingly large charge accelerations has thus far prevented its unambiguous experimental identification. Here, we show how measurable RR effects in a laser-electron interaction can be achieved through the use of flying focus pulses (FFPs). By allowing the focus to counterpropagate with respect to the pulse phase velocity, a FFP overcomes the intrinsic limitation of a conventional laser Gaussian pulse (GP) that limits its focus to a Rayleigh range. For an electron initially also counterpropagating with respect to the pulse phase velocity, an extended interaction length with the laser peak intensity is achieved in a FFP. As a result, the same RR deceleration factors are obtained, but at FFP laser powers orders of magnitude lower than for ultrashort GPs with the same energy. This renders the proposed setup much more stable than those using GPs and allows for more accurate \emph{in situ} diagnostics. Using the Landau-Lifshitz equation of motion, we show numerically and analytically that the capability of emerging laser systems to deliver focused FFPs will allow for a clear experimental identification of RR.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Scattering and depletion in a flying focus from conformal transformations

    hep-ph 2026-05 unverdicted novelty 7.0

    Photon emission amplitudes in totally depleting flying focus beams equal a Gaussian average over momentum variables of the corresponding plane-wave amplitudes, obtained via conformal transformations of Volkov solutions.