Physical Review Accelerators and Beams (Feb 2019)

Two-stage laser acceleration of high quality protons using a tailored density plasma

  • Y. Wan,
  • I. A. Andriyash,
  • J. F. Hua,
  • C.-H. Pai,
  • W. Lu,
  • W. B. Mori,
  • C. Joshi,
  • V. Malka

DOI
https://doi.org/10.1103/PhysRevAccelBeams.22.021301
Journal volume & issue
Vol. 22, no. 2
p. 021301

Abstract

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A new scheme for a laser-driven proton accelerator based on a sharply tailored near-critical-density plasma target is proposed. The designed plasma profile allows for the laser channeling of the dense plasma, which triggers a two-stage acceleration of protons—first accelerated by the laser acting as a snowplow in plasma, and then by the collisionless shock launched from the sharp density downramp. Thanks to laser channeling in the near-critical plasma, the formed shock is radially small and collimated. This allows it to generate a significant space-charge field, which acts as a monochromator, defocusing the lower energy protons while the highest ones remain collimated. Our theoretical and numerical analysis demonstrates production of high-energy proton beams with few tens of percent energy spread, few degrees divergence angle and charge up to few nC. With a PW-class ultrashort laser this scheme predicts the generation of such high quality proton beams with energies up to several hundreds of MeV.