1. Dynamics of high-energy proton beam acceleration and focusing from hemisphere-cone targets by high-intensity lasers.
- Author
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Qiao B, Foord ME, Wei MS, Stephens RB, Key MH, McLean H, Patel PK, and Beg FN
- Subjects
- Protons, Acceleration, Lasers, Particle Accelerators
- Abstract
Acceleration and focusing of high-energy proton beams from fast-ignition (FI) -related hemisphere-cone assembled targets have been numerically studied by hybrid particle-in-cell simulations and compared with those from planar-foil and open-hemisphere targets. The whole physical process including the laser-plasma interaction has been self-consistently modeled for 15 ps, at which time the protons reach asymptotic motion. It is found that the achievable focus of proton beams is limited by the thermal pressure gradients in the co-moving hot electrons, which induce a transverse defocusing electric field that bends proton trajectories near the axis. For the advanced hemisphere-cone target, the flow of hot electrons along the cone wall induces a local transverse focusing sheath field, resulting in a clear enhancement in proton focusing; however, it leads to a significant loss of longitudinal sheath potential, reducing the total conversion efficiency from laser to protons.
- Published
- 2013
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