Development of foam-based layered targets for laser-driven ion beam production

Irene Prencipe(Helmholtz-Zentrum Dresden-Rossendorf), A. Sgattoni(Istituto Nazionale di Ottica), D. Dellasega(Politecnico di Milano), Luca Fedeli(Istituto Nazionale di Ottica), L. Cialfi(Politecnico di Milano), Il Woo Choi(Gwangju Institute of Science and Technology), I Jong Kim(Gwangju Institute of Science and Technology), K. A. Janulewicz(Institute for Basic Science), K. F. Kakolee(Institute for Basic Science), Hwang Woon Lee(Institute for Basic Science), Jae Hee Sung(Gwangju Institute of Science and Technology), Seong Ku Lee(Institute for Basic Science), Chang Hee Nam(Institute for Basic Science), M. Passoni(Institute of Plasma Physics)
Plasma Physics and Controlled Fusion
February 17, 2016
10.1088/0741-3335/58/3/034019
Cited by 81Open Access
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Abstract

We report on the development of foam-based double-layer targets (DLTs) for laser-driven ion acceleration. Foam layers with a density of a few mg cm-3 and controlled thickness in the 8-36 μm range were grown on μm-thick Al foils by pulsed laser deposition (PLD). The DLTs were experimentally investigated by varying the pulse intensity, laser polarisation and target properties. Comparing DLTs with simple Al foils, we observed a systematic enhancement of the maximum and average energies and number of accelerated ions. Maximum energies up to 30 MeV for protons and 130 MeV for C6+ ions were detected. Dedicated three-dimensional particle-in-cell (3D-PIC) simulations were performed considering both uniform and cluster-assembled foams to interpret the effect of the foam nanostructure on the acceleration process.

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