Abstract
We report upon the picosecond plasma dynamics at the rear surface of a thin aluminium foil (of either 5.5 μm or 12 μm thickness) excited by high contrast (picosecond intensity contrast of 10−10), 800 nm, femtosecond pulses at an intensity of 3 × 1019 W/cm2. We employ ultrafast pump-probe reflectometry using a second harmonic probe (400 nm) interacting with the rear surface of the target. A rise in the probe reflectivity 30 ps after the pump pulse interaction reveals the breakout of a shock wave at the target rear surface which reflects the 400 nm probe pulse. Simulations using the ZEPHYROS hybrid particle-in-cell code were performed to understand the heating of the target under the influence of the high intensity laser pulse, and the temperature profile was then passed to the radiation-hydrodynamic simulation code HYADES in order to model the shock wave propagation in the target. A good agreement was found between the calculations and experimental results.
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