Author
Listed:
- M. Šmíd
(Helmholtz-Zentrum Dresden-Rossendorf
Institute of Physics of the Czech Academy of Sciences)
- O. Renner
(Institute of Physics of the Czech Academy of Sciences
ELI Beamlines, Institute of Physics of the Czech Academy of Sciences
Institute of Plasma Physics of the Czech Academy of Sciences)
- A. Colaitis
(Centre Lasers Intenses et Applications, University of Bordeaux - CNRS - CEA)
- V. T. Tikhonchuk
(ELI Beamlines, Institute of Physics of the Czech Academy of Sciences
Centre Lasers Intenses et Applications, University of Bordeaux - CNRS - CEA)
- T. Schlegel
(ELI Beamlines, Institute of Physics of the Czech Academy of Sciences)
- F. B. Rosmej
(Sorbonne Université, Faculté des Sciences et Ingénierie
LULI, École Polytechnique, CEA, CNRS, Atomic Physics in Dense Plasmas PAPD
Moscow Institute of Physics and Technology - MIPT
National Research Nuclear University - MEPhI, Department of Plasma Physics)
Abstract
Suprathermal electrons are routinely generated in high-intensity laser produced plasmas via instabilities driven by non-linear laser-plasma interaction. Their accurate characterization is crucial for the performance of inertial confinement fusion as well as for performing experiments in laboratory astrophysics and in general high-energy-density physics. Here, we present studies of non-thermal atomic states excited by suprathermal electrons in kJ-ns-laser produced plasmas. Highly spatially and spectrally resolved X-ray emission from the laser-deflected part of the warm dense Cu foil visualized the hot electrons. A multi-scale two-dimensional hydrodynamic simulation including non-linear laser-plasma interactions and hot electron propagation has provided an input for ab initio non-thermal atomic simulations. The analysis revealed a significant delay between the maximum of laser pulse and presence of suprathermal electrons. Agreement between spectroscopic signatures and simulations demonstrates that combination of advanced high-resolution X-ray spectroscopy and non-thermal atomic physics offers a promising method to characterize suprathermal electrons inside the solid density matter.
Suggested Citation
M. Šmíd & O. Renner & A. Colaitis & V. T. Tikhonchuk & T. Schlegel & F. B. Rosmej, 2019.
"Characterization of suprathermal electrons inside a laser accelerated plasma via highly-resolved K⍺-emission,"
Nature Communications, Nature, vol. 10(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-12008-9
DOI: 10.1038/s41467-019-12008-9
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