Matter and Radiation at Extremes (Jul 2024)

Demonstrating grating-based phase-contrast imaging of laser-driven shock waves

  • Leonard Wegert,
  • Stephan Schreiner,
  • Constantin Rauch,
  • Bruno Albertazzi,
  • Paulina Bleuel,
  • Eric Fröjdh,
  • Michel Koenig,
  • Veronika Ludwig,
  • Artem S. Martynenko,
  • Pascal Meyer,
  • Aldo Mozzanica,
  • Michael Müller,
  • Paul Neumayer,
  • Markus Schneider,
  • Angelos Triantafyllidis,
  • Bernhard Zielbauer,
  • Gisela Anton,
  • Thilo Michel,
  • Stefan Funk

DOI
https://doi.org/10.1063/5.0200440
Journal volume & issue
Vol. 9, no. 4
pp. 047803 – 047803-8

Abstract

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Single-shot X-ray phase-contrast imaging is used to take high-resolution images of laser-driven strong shock waves. Employing a two-grating Talbot interferometer, we successfully acquire standard absorption, differential phase-contrast, and dark-field images of the shocked target. Good agreement is demonstrated between experimental data and the results of two-dimensional radiation hydrodynamics simulations of the laser–plasma interaction. The main sources of image noise are identified through a thorough assessment of the interferometer’s performance. The acquired images demonstrate that grating-based phase-contrast imaging is a powerful diagnostic tool for high-energy-density science. In addition, we make a novel attempt at using the dark-field image as a signal modality of Talbot interferometry to identify the microstructure of a foam target.