Simulations of x-ray speckle-based dark-field and phase-contrast imaging with a polychromatic beam
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TLDR
Zanette et al. as mentioned in this paper presented a simulation study on the effects of a polychromatic x-ray spectrum on the performance of X-ray speckle-based multimodal imaging.Abstract:
Following the first experimental demonstration of x-ray speckle-based multimodal imaging using a polychromatic beam [I. Zanette et al., Phys. Rev. Lett. 112(25), 253903 (2014)], we present a simulation study on the effects of a polychromatic x-ray spectrum on the performance of this technique. We observe that the contrast of the near-field speckles is only mildly influenced by the bandwidth of the energy spectrum. Moreover, using a homogeneous object with simple geometry, we characterize the beam hardening artifacts in the reconstructed transmission and refraction angle images, and we describe how the beam hardening also affects the dark-field signal provided by speckle tracking. This study is particularly important for further implementations and developments of coherent speckle-based techniques at laboratory x-ray sources.read more
Citations
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State of the Art of X-ray Speckle-Based Phase-Contrast and Dark-Field Imaging
TL;DR: An overview of the state of the art of the X-ray speckle-based technique is provided, its basic principles and different experimental implementations as well as the the latest advances and applications are illustrated.
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X-ray optics and beam characterization using random modulation: experiments.
Sebastien Berujon,Ruxandra Cojocaru,Pierre Piault,Rafael Celestre,Thomas Roth,Raymond Barrett,Eric Ziegler +6 more
TL;DR: In this paper, the authors reviewed theoretically some of the available processing schemes for X-ray wavefront sensing based on random modulation for characterizing both refractive and reflective optical components.
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Applying the Fokker-Planck equation to grating-based x-ray phase and dark-field imaging.
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TL;DR: The finite-difference form of the Fokker–Planck equation can be applied to describe the drift (phase signal) and diffusion (dark-field signal) of the periodic or structured illumination used in phase contrast x-ray imaging with gratings, in order to better understand any cross-talk between attenuation, phase and dark-field x-Ray signals.
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Near-field speckle-scanning-based x-ray tomography
Sebastien Berujon,Eric Ziegler +1 more
TL;DR: In this article, the authors show ways of drastically lowering the number of exposures for the speckle scanning method to become attractive for computed tomography imaging, which is also expected to attract the attention of the laboratory sources community.
Journal ArticleDOI
X-ray optics and beam characterisation using random modulation: Experiments.
Sebastien Berujon,Ruxandra Cojocaru,Pierre Piault,Rafael Celestre,Thomas Roth,Raymond Barrett,Eric Ziegler +6 more
TL;DR: In this article, the authors reviewed theoretically some of the available processing schemes for X-ray wavefront sensing based on random modulation and showed experimental applications of the technique for characterising both refractive and reflective optical components.
References
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Phase-contrast imaging using polychromatic hard X-rays
TL;DR: In this paper, a simplified scheme for phase-contrast imaging based on an X-ray source having high spatial (but essentially no chromatic) coherence is presented. But the method is not suitable for large areas of irradiation, and it can operate with a lower absorbed dose than traditional Xray imaging techniques, and should find broad application in clinical, biological and industrial settings.
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On the possibilities of x-ray phase contrast microimaging by coherent high-energy synchrotron radiation
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Timm Weitkamp,Ana Diaz,Christian David,Franz Pfeiffer,Marco Stampanoni,Peter Cloetens,Eric Ziegler +6 more
TL;DR: Using a high-efficiency grating interferometer for hard X rays (10-30 keV) and a phase-stepping technique, separate radiographs of the phase and absorption profiles of bulk samples can be obtained from a single set of measurements.