U. Zastrau scite author profile

International audienceTaking advantage of the new opportunities provided by x-ray free electron laser (FEL) sources when coupled to a long laser pulse as available at the Linear Coherent Light Source (LCLS), we have performed x-ray absorption near-edge spectroscopy (XANES) of laser shock compressed iron up to 420 GPa (±50) and 10 800 K (±1390). Visible diagnostics coupled with hydrodynamic simulations were used to infer the thermodynamical conditions along the Hugoniot and the release adiabat. A modification of the pre-edge feature at 7.12 keV in the XANES spectra is observed above pressures of 260 GPa along the Hugoniot. Comparing with ab initio calculations and with previous laser-heated diamond cell data, we propose that such changes in the XANES pre-edge could be a signature of molten iron. This interpretation then suggests that iron is molten at pressures and temperatures higher than 260 GPa (±29) and 5680 K (±700) along the principal Fe Hugoniot

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Single-shot measurements of plasmons in compressed diamond with an x-ray lasera)

Gamboa

Fletcher

Lee

et al. 2015

Phys. Plasmas

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Observations of strong ion-ion correlations in dense plasmas

Fletcher²,

Pak³

et al. 2014

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Using simultaneous spectrally, angularly, and temporally resolved x-ray scattering, we measure the pronounced ion-ion correlation peak in a strongly coupled plasma. Laser-driven shock-compressed aluminum at ∼3× solid density is probed with high-energy photons at 17.9 keV created by molybdenum He-α emission in a laser-driven plasma source. The measured elastic scattering feature shows a well-pronounced correlation peak at a wave vector of k=4Å−1. The magnitude of this correlation peak cannot be described by standard plasma theories employing a linear screened Coulomb potential. Advanced models, including a strong short-range repulsion due to the inner structure of the aluminum ions are however in good agreement with the scattering data. These studies have demonstrated a new highly accurate diagnostic technique to directly measure the state of compression and the ion-ion correlations. We have since applied this new method in single-shot wave-number resolved S(k) measurements to characterize the physical properties of dense plasmas.

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X-ray Thomson scattering diagnostics of impact ionization in laser-driven carbon foils

Sperling¹,

Zastrau²,

Toleikis³

et al. 2015

J. Phys. B: At. Mol. Opt. Phys.

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Abstract.We have studied the light-matter interaction of ultra-short, intense optical laser fields with thin carbon foils via particle-in-cell simulations. Especially, the influence of additional impact ionization on the density and temperature of the generated plasma and on the corresponding Thomson scattering spectra was investigated which has been found essential for laser intensities I > 10 16 W/cm 2 . We predict a pump-probe experiment at the free electron laser FLASH in order to verify the importance of this effect in the laser-matter interaction on ultra-short time scales and to check our predictions quantitatively.X-ray Thomson scattering diagnostics of impact ionization in laser-driven carbon foils2

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U. Zastrau

X-ray absorption spectroscopy of iron at multimegabar pressures in laser shock experiments

Single-shot measurements of plasmons in compressed diamond with an x-ray lasera)

Observations of strong ion-ion correlations in dense plasmas

X-ray Thomson scattering diagnostics of impact ionization in laser-driven carbon foils

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