2022
DOI: 10.1107/s205327332200866x
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Simulating dark-field X-ray microscopy images with wavefront propagation techniques

Abstract: Dark-field X-ray microscopy is a diffraction-based synchrotron imaging technique capable of imaging defects in the bulk of extended crystalline samples. Numerical simulations are presented of image formation in such a microscope using numerical integration of the dynamical Takagi–Taupin equations and wavefront propagation. The approach is validated by comparing simulated images with experimental data from a near-perfect single crystal of diamond containing a single stacking-fault defect in the illuminated volu… Show more

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Cited by 5 publications
(2 citation statements)
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“…The simulation assumes kinematical scattering and is otherwise based on Refs. [22,23] with a Gauss-Schell beam [24] of height 0.6 μm and divergence of 0.1 mrad. The electric field is concentrated at the edge of the electrode and the highest electric-field-induced contrast is found here.…”
Section: A Proposed Experimental Realizationmentioning
confidence: 99%
“…The simulation assumes kinematical scattering and is otherwise based on Refs. [22,23] with a Gauss-Schell beam [24] of height 0.6 μm and divergence of 0.1 mrad. The electric field is concentrated at the edge of the electrode and the highest electric-field-induced contrast is found here.…”
Section: A Proposed Experimental Realizationmentioning
confidence: 99%
“…26 In recent times several works have introduced the capability of retrieving complex x-ray wave-fronts after the sample by using an evolution of these inverse techniques as in the case of tele-ptychography 10,27,28 or dark x-ray field microscopy. 29 Dynamical diffraction theory was widely studied during the decades from the 50s to the 90s. 21,22,[30][31][32][33][34] During these decades, dynamical diffraction was mainly use in the study of thick crystals with both neutrons and xrays.…”
Section: Introductionmentioning
confidence: 99%