English

Optical Shock-Enhanced Self-Photon Acceleration

Optics 2021-11-03 v2 Plasma Physics

Abstract

Photon accelerators can spectrally broaden laser pulses with high efficiency in moving electron density gradients. When driven by a conventional laser pulse, the group velocity walk-off experienced by the accelerated photons and deterioration of the gradient from diffraction and refraction limit the extent of spectral broadening. Here we show that a laser pulse with a shaped space-time and transverse intensity profile overcomes these limitations by creating a guiding density profile at a tunable velocity. Self-photon acceleration in this profile leads to dramatic spectral broadening and intensity steepening, forming an optical shock that further enhances the rate of spectral broadening. In this new regime, multi-octave spectra extending from 400nm60nm400 nm - 60 nm wavelengths, which support near-transform limited <400as< 400 as pulses, are generated over <100μ<100 \mum of interaction length.

Keywords

Cite

@article{arxiv.2107.09575,
  title  = {Optical Shock-Enhanced Self-Photon Acceleration},
  author = {Philip Franke and Dillon Ramsey and Tanner T. Simpson and Dustin H. Froula and John P. Palastro},
  journal= {arXiv preprint arXiv:2107.09575},
  year   = {2021}
}
R2 v1 2026-06-24T04:22:03.247Z