English

Energy boost in laser wakefield accelerators using sharp density transitions

Accelerator Physics 2016-05-04 v1 Plasma Physics

Abstract

The energy gain in laser wakefield accelerators is limited by dephasing between the driving laser pulse and the highly relativistic electrons in its wake. Since this phase depends on both the driver and the cavity length, the effects of dephasing can be mitigated with appropriate tailoring of the plasma density along propagation. Preceding studies have discussed the prospects of continuous phase-locking in the linear wakefield regime. However, most experiments are performed in the highly non-linear regime and rely on self-guiding of the laser pulse. Due to the complexity of the driver evolution in this regime it is much more difficult to achieve phase locking. As an alternative we study the scenario of rapid rephasing in sharp density transitions, as was recently demonstrated experimentally. Starting from a phenomenological model we deduce expressions for the electron energy gain in such density profiles. The results are in accordance with particle-in-cell simulations and we present gain estimations for single and multiple stages of rephasing.

Keywords

Cite

@article{arxiv.1512.05973,
  title  = {Energy boost in laser wakefield accelerators using sharp density transitions},
  author = {A. Döpp and E. Guillaume and C. Thaury and A. Lifschitz and K. Ta Phuoc and V. Malka},
  journal= {arXiv preprint arXiv:1512.05973},
  year   = {2016}
}
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