CERN Accelerating science

Article
Title Study of ablation and shock generation across three orders of magnitude of laser intensity with 100 ps laser pulses
Author(s) Parsons, S E (LLNL, Livermore ; UC, San Diego) ; Armstrong, M R (LLNL, Livermore) ; Lee, H J (SLAC) ; Gleason, A E (SLAC) ; Goncharov, A F (Carnegie Inst., Wash., D.C.) ; Belof, J (LLNL, Livermore) ; Prakapenka, V (Chicago U., EFI) ; Granados, E (CERN) ; Beg, F N (UC, San Diego) ; Radousky, H B (LLNL, Livermore)
Publication 2024
Number of pages 7
In: Appl. Phys. Lett. 125 (2024) 164104
DOI 10.1063/5.0222979
Subject category Detectors and Experimental Techniques
Abstract The laser ablation and subsequent shock generation in solid targets plays an important role in a variety of research topics from equation of state models for materials to inertial confinement fusion. One of the long-standing issues is the knowledge of ablation depth in the picosecond time regime. We report on a direct technique for determining the ablation depth in aluminum using x-ray diffraction data from Linac Coherent Light Source at the Stanford Linear Accelerator Center. This technique gives a direct measurement of the shock wave propagation in the bulk target, enabling an ability to discern early timescale physics from late timescale effects not available in postmortem analysis. We find that the ablation depths only vary by 0.2 μm across three orders of magnitude of laser intensity, while the pressure increased by a factor of 10 following a square root dependence on laser pulse energy. We further observe that the ablation depth in this intensity range (⁠ 1011–1013 W/cm2 in intensity, corresponding to 0.8–80 J/cm2 in fluence) cannot be modeled by a universal scaling law, given the complexity of the mechanisms governing laser ablation in this intensity regime.
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