Proton acceleration by collisionless shocks using a supersonic H2 gas-jet target and high-power infrared laser pulses

Proton acceleration by collisionless shocks using a supersonic H2 gas-jet target and high-power infrared laser pulses

For most laser-driven ion acceleration applications, a well-characterized intense ion beam with a low divergence and a controllable energy spectrum produced at a high repetition rate is needed. Gas-jet targets have given promising results in simulations, and they have several technical advantages fo...

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Veröffentlicht in:Physics of plasmas 2019-12, Vol.26 (12)
Hauptverfasser: Puyuelo-Valdes, P., Henares, J. L., Hannachi, F., Ceccotti, T., Domange, J., Ehret, M., d'Humieres, E., Lancia, L., Marquès, J.-R., Ribeyre, X., Santos, J. J., Tikhonchuk, V., Tarisien, M.
Format: Artikel
Sprache:eng
Schlagworte:
Acceleration
Divergence
Energy spectra
Fluid dynamics
Fluid flow
Hydrodynamics
Infrared lasers
Ion beams
Laser beams
Lasers
Particle in cell technique
Plasma physics
Protons
Repetition
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Zusammenfassung:For most laser-driven ion acceleration applications, a well-characterized intense ion beam with a low divergence and a controllable energy spectrum produced at a high repetition rate is needed. Gas-jet targets have given promising results in simulations, and they have several technical advantages for high-repetition-rate lasers. In this work, we report on proton acceleration to energies up to 6 MeV using a supersonic H2 gas-jet target at the LULI PICO2000 laser facility. The experimental results are compared with the plasma hydrodynamics and the particle-in-cell simulations to identify the acceleration mechanisms at play.
ISSN:1070-664X
1089-7674
DOI:10.1063/1.5116337