Scientific Reports (Nov 2018)

Advanced high resolution x-ray diagnostic for HEDP experiments

  • A. Y. Faenov,
  • T. A. Pikuz,
  • P. Mabey,
  • B. Albertazzi,
  • Th. Michel,
  • G. Rigon,
  • S. A. Pikuz,
  • A. Buzmakov,
  • S. Makarov,
  • N. Ozaki,
  • T. Matsuoka,
  • K. Katagiri,
  • K. Miyanishi,
  • K. Takahashi,
  • K. A. Tanaka,
  • Y. Inubushi,
  • T. Togashi,
  • T. Yabuuchi,
  • M. Yabashi,
  • A. Casner,
  • R. Kodama,
  • M. Koenig

DOI
https://doi.org/10.1038/s41598-018-34717-9
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 9

Abstract

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Abstract High resolution X-ray imaging is crucial for many high energy density physics (HEDP) experiments. Recently developed techniques to improve resolution have, however, come at the cost of a decreased field of view. In this paper, an innovative experimental detector for X-ray imaging in the context of HEDP experiments with high spatial resolution, as well as a large field of view, is presented. The platform is based on coupling an X-ray backligther source with a Lithium Fluoride detector, characterized by its large dynamic range. A spatial resolution of 2 µm over a field of view greater than 2 mm2 is reported. The platform was benchmarked with both an X-ray free electron laser (XFEL) and an X-ray source produced by a short pulse laser. First, using a non-coherent short pulse laser-produced backlighter, reduced penumbra blurring, as a result of the large size of the X-ray source, is shown. Secondly, we demonstrate phase contrast imaging with a fully coherent monochromatic XFEL beam. Modeling of the absorption and phase contrast transmission of X-ray radiation passing through various targets is presented.

Keywords