New Journal of Physics (Jan 2021)

Towards the optimisation of direct laser acceleration

  • A E Hussein,
  • A V Arefiev,
  • T Batson,
  • H Chen,
  • R S Craxton,
  • A S Davies,
  • D H Froula,
  • Z Gong,
  • D Haberberger,
  • Y Ma,
  • P M Nilson,
  • W Theobald,
  • T Wang,
  • K Weichman,
  • G J Williams,
  • L Willingale

DOI
https://doi.org/10.1088/1367-2630/abdf9a
Journal volume & issue
Vol. 23, no. 2
p. 023031

Abstract

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Experimental measurements using the OMEGA EP laser facility demonstrated direct laser acceleration (DLA) of electron beams to (505 ± 75) MeV with (140 ± 30) nC of charge from a low-density plasma target using a 400 J, picosecond duration pulse. Similar trends of electron energy with target density are also observed in self-consistent two-dimensional particle-in-cell simulations. The intensity of the laser pulse is sufficiently large that the electrons are rapidly expelled along the laser pulse propagation axis to form a channel. The dominant acceleration mechanism is confirmed to be DLA and the effect of quasi-static channel fields on energetic electron dynamics is examined. A strong channel magnetic field, self-generated by the accelerated electrons, is found to play a comparable role to the transverse electric channel field in defining the boundary of electron motion.

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