Physical Review Accelerators and Beams (Aug 2017)

Manipulation of laser-accelerated proton beam profiles by nanostructured and microstructured targets

  • L. Giuffrida,
  • K. Svensson,
  • J. Psikal,
  • M. Dalui,
  • H. Ekerfelt,
  • I. Gallardo Gonzalez,
  • O. Lundh,
  • A. Persson,
  • P. Lutoslawski,
  • V. Scuderi,
  • J. Kaufman,
  • T. Wiste,
  • T. Lastovicka,
  • A. Picciotto,
  • A. Bagolini,
  • M. Crivellari,
  • P. Bellutti,
  • G. Milluzzo,
  • G. A. P. Cirrone,
  • J. Magnusson,
  • A. Gonoskov,
  • G. Korn,
  • C-G. Wahlström,
  • D. Margarone

DOI
https://doi.org/10.1103/PhysRevAccelBeams.20.081301
Journal volume & issue
Vol. 20, no. 8
p. 081301

Abstract

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Nanostructured and microstructured thin foils have been fabricated and used experimentally as targets to manipulate the spatial profile of proton bunches accelerated through the interaction with high intensity laser pulses (6×10^{19} W/cm^{2}). Monolayers of polystyrene nanospheres were placed on the rear surfaces of thin plastic targets to improve the spatial homogeneity of the accelerated proton beams. Moreover, thin targets with grating structures of various configurations on their rear sides were used to modify the proton beam divergence. Experimental results are presented, discussed, and supported by 3D particle-in-cell numerical simulations.