Properties of heavy ion beams produced by a PW sub-picosecond laser

Abstract

The paper reports the results of numerical studies on the generation of heavy ions from a sub-micrometre gold target irradiated by a high-energy (60 J) high-intensity (∼ 2 × 1020 W/cm2) sub-ps laser pulse. The properties of the heavy ion beam produced from a 0.5-μm gold target with and without hydrogen contaminants are investigated using a multi-dimensional (2D3 V) particle-in-cell code. It was found that in the case of the pure (without the contaminants) target, the ion beam contains over 20 ion species with a charge state > 30 and a total number of high-energy (> 20 MeV) ions reaching values well above 1012. The ion energy spectrum is broad, with maximum energies > 1 GeV and mean energies > 100 MeV . At a distance ∼ 1 mm from the target, the intensity of the ion beam is ∼ 1015 W/cm2, the ion fluence reaches ∼ 1016 ions/cm2, and the ion pulse duration is ∼ 100 ps. The contaminants significantly reduce the ion beam parameters and both the mean ion energy and the intensity and fluence of the ion beam generated from the contaminated gold target are almost an order of magnitude lower than those produced from the pure target. Heavy ion beams with the parameters obtained in the case of the pure gold target are barely achievable in conventional RF-driven accelerators, so they can open the door to new areas of research, in particular in high energy-density physics.