Journal of Synchrotron Radiation (Nov 2024)

Development of crystal optics for X-ray multi-projection imaging for synchrotron and XFEL sources

  • Valerio Bellucci,
  • Sarlota Birnsteinova,
  • Tokushi Sato,
  • Romain Letrun,
  • Jayanath C. P. Koliyadu,
  • Chan Kim,
  • Gabriele Giovanetti,
  • Carsten Deiter,
  • Liubov Samoylova,
  • Ilia Petrov,
  • Luis Lopez Morillo,
  • Rita Graceffa,
  • Luigi Adriano,
  • Helge Huelsen,
  • Heiko Kollmann,
  • Thu Nhi Tran Calliste,
  • Dusan Korytar,
  • Zdenko Zaprazny,
  • Andrea Mazzolari,
  • Marco Romagnoni,
  • Eleni Myrto Asimakopoulou,
  • Zisheng Yao,
  • Yuhe Zhang,
  • Jozef Ulicny,
  • Alke Meents,
  • Henry N. Chapman,
  • Richard Bean,
  • Adrian Mancuso,
  • Pablo Villanueva-Perez,
  • Patrik Vagovic

DOI
https://doi.org/10.1107/S1600577524008488
Journal volume & issue
Vol. 31, no. 6
pp. 1534 – 1550

Abstract

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X-ray multi-projection imaging (XMPI) is an emerging experimental technique for the acquisition of rotation-free, time-resolved, volumetric information on stochastic processes. The technique is developed for high-brilliance light-source facilities, aiming to address known limitations of state-of-the-art imaging methods in the acquisition of 4D sample information, linked to their need for sample rotation. XMPI relies on a beam-splitting scheme, that illuminates a sample from multiple, angularly spaced viewpoints, and employs fast, indirect, X-ray imaging detectors for the collection of the data. This approach enables studies of previously inaccessible phenomena of industrial and societal relevance such as fractures in solids, propagation of shock waves, laser-based 3D printing, or even fast processes in the biological domain. In this work, we discuss in detail the beam-splitting scheme of XMPI. More specifically, we explore the relevant properties of X-ray splitter optics for their use in XMPI schemes, both at synchrotron insertion devices and XFEL facilities. Furthermore, we describe two distinct XMPI schemes, designed to faciliate large samples and complex sample environments. Finally, we present experimental proof of the feasibility of MHz-rate XMPI at the European XFEL. This detailed overview aims to state the challenges and the potential of XMPI and act as a stepping stone for future development of the technique.

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