A Platform for Laser-Driven Ion Sources Generated with Nanosecond Laser Pulses in the Intensity Range of 1013–1015 W/cm2
Copyright policy )A Platform for Laser-Driven Ion Sources Generated with Nanosecond Laser Pulses in the Intensity Range of 1013–1015 W/cm2
An experimental platform for laser-driven ion (sub-MeV) acceleration and potential applications was commissioned at the HiLASE laser facility. The auxiliary beam of the Bivoj laser system operating at a GW level peak power (~10 J in 5–10 ns) and 1–10 Hz repetition rate enabled a stable production of high-current ion beams of multiple species (Al, Ti, Fe, Si, Cu, and Sn). The produced laser–plasma ion sources were fully characterized against the laser intensity on the target (1013–1015 W/cm2) by varying the laser energy, focal spot size, and pulse duration. The versatility and tuneability of such high-repetition-rate laser–plasma ion sources are of potential interest for user applications. Such a statistically accurate study was facilitated by the large amount of data acquired at the high repetition rate (1–10 Hz) provided by the Bivoj laser system.
- Queen's University Belfast United Kingdom
- Fondazione Bruno Kessler Italy
- Czech Technical University in Prague Czech Republic
- Institute of Physics Czech Republic
- Charles University Czech Republic
Nuclear and High Energy Physics, Technology, T, 530, Atomic and Molecular Physics, and Optics, 620, laser–plasma ion sources, TK1-9971, ion diagnostics, Atomic and Molecular Physics, Electrical engineering. Electronics. Nuclear engineering, and Optics, high-power laser applications
Nuclear and High Energy Physics, Technology, T, 530, Atomic and Molecular Physics, and Optics, 620, laser–plasma ion sources, TK1-9971, ion diagnostics, Atomic and Molecular Physics, Electrical engineering. Electronics. Nuclear engineering, and Optics, high-power laser applications
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