Physical Review Accelerators and Beams (Jun 2016)

Toward high-energy laser-driven ion beams: Nanostructured double-layer targets

  • M. Passoni,
  • A. Sgattoni,
  • I. Prencipe,
  • L. Fedeli,
  • D. Dellasega,
  • L. Cialfi,
  • Il Woo Choi,
  • I Jong Kim,
  • K. A. Janulewicz,
  • Hwang Woon Lee,
  • Jae Hee Sung,
  • Seong Ku Lee,
  • Chang Hee Nam

DOI
https://doi.org/10.1103/PhysRevAccelBeams.19.061301
Journal volume & issue
Vol. 19, no. 6
p. 061301

Abstract

Read online Read online

The development of novel target concepts is crucial to make laser-driven acceleration of ion beams suitable for applications. We tested double-layer targets formed of an ultralow density nanostructured carbon layer (∼7 mg/cm^{3}, 8–12 μm–thick) deposited on a μm–thick solid Al foil. A systematic increase in the total number of the accelerated ions (protons and C^{6+}) as well as enhancement of both their maximum and average energies was observed with respect to bare solid foil targets. Maximum proton energies up to 30 MeV were recorded. Dedicated three-dimensional particle-in-cell simulations were in remarkable agreement with the experimental results, giving clear indication of the role played by the target nanostructures in the interaction process.