Journal of Synchrotron Radiation (Jan 2022)

X-ray in-line holography and holotomography at the NanoMAX beamline

  • Sebastian Kalbfleisch,
  • Yuhe Zhang,
  • Maik Kahnt,
  • Khachiwan Buakor,
  • Max Langer,
  • Till Dreier,
  • Hanna Dierks,
  • Philip Stjärneblad,
  • Emanuel Larsson,
  • Korneliya Gordeyeva,
  • Lert Chayanun,
  • Daniel Söderberg,
  • Jesper Wallentin,
  • Martin Bech,
  • Pablo Villanueva-Perez

DOI
https://doi.org/10.1107/S1600577521012200
Journal volume & issue
Vol. 29, no. 1
pp. 224 – 229

Abstract

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Coherent X-ray imaging techniques, such as in-line holography, exploit the high brilliance provided by diffraction-limited storage rings to perform imaging sensitive to the electron density through contrast due to the phase shift, rather than conventional attenuation contrast. Thus, coherent X-ray imaging techniques enable high-sensitivity and low-dose imaging, especially for low-atomic-number (Z) chemical elements and materials with similar attenuation contrast. Here, the first implementation of in-line holography at the NanoMAX beamline is presented, which benefits from the exceptional focusing capabilities and the high brilliance provided by MAX IV, the first operational diffraction-limited storage ring up to approximately 300 eV. It is demonstrated that in-line holography at NanoMAX can provide 2D diffraction-limited images, where the achievable resolution is only limited by the 70 nm focal spot at 13 keV X-ray energy. Also, the 3D capabilities of this instrument are demonstrated by performing holotomography on a chalk sample at a mesoscale resolution of around 155 nm. It is foreseen that in-line holography will broaden the spectra of capabilities of MAX IV by providing fast 2D and 3D electron density images from mesoscale down to nanoscale resolution.

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