Planar proton radiography experiments show filamentary electromagnetic structures in laser ablation of solids grow primarily with laser energy and target Z through a secondary instability following the Weibel mechanism.
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A laser-based platform sustains collisionless plasma flows for 11 ns to measure late-time Weibel instability filament evolution via Thomson scattering and proton radiography.
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Proton probing measurements of filamentary electromagnetic structure in laser ablation of solids
Planar proton radiography experiments show filamentary electromagnetic structures in laser ablation of solids grow primarily with laser energy and target Z through a secondary instability following the Weibel mechanism.
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Sustained interpenetrating plasma flows for the investigation of late time kinetic instability evolution
A laser-based platform sustains collisionless plasma flows for 11 ns to measure late-time Weibel instability filament evolution via Thomson scattering and proton radiography.