Physical Review Accelerators and Beams (Oct 2018)
Collisionless shock acceleration of narrow energy spread ion beams from mixed species plasmas using 1 μm lasers
Abstract
Collisionless shock acceleration of protons and C^{6+} ions has been achieved by the interaction of a 10^{20} W/cm^{2}, 1 μm laser with a near-critical density plasma. Ablation of the initially solid density target by a secondary laser allows for systematic control of the plasma profile. This enables the production of beams with peaked spectra with energies of 10–18 MeV/amu and energy spreads of 10%–20% with up to 3×10^{9} particles within these narrow spectral features. The narrow energy spread and similar velocity of ion species with different charge-to-mass ratios are consistent with acceleration by the moving potential of a shock wave. Particle-in-cell simulations show shock accelerated beams of protons and C^{6+} ions with energy distributions consistent with the experiments. Simulations further indicate the plasma profile determines the trade-off between the beam charge and energy and that with additional target optimization narrow energy spread beams exceeding 100 MeV/amu can be produced using the same laser conditions.
