Litcius/Paper detail

X-Ray Dark-Field and Phase Retrieval Without Optics, via the Fokker–Planck Equation

Thomas A. Leatham, David M. Paganin, Kaye S. Morgan

2023IEEE Transactions on Medical Imaging23 citationsDOIOpen Access PDF

Abstract

Emerging methods of x-ray imaging that capture phase and dark-field effects are equipping medicine with complementary sensitivity to conventional radiography. These methods are being applied over a wide range of scales, from virtual histology to clinical chest imaging, and typically require the introduction of optics such as gratings. Here, we consider extracting x-ray phase and dark-field signals from bright-field images collected using nothing more than a coherent x-ray source and a detector. Our approach is based on the Fokker-Planck equation for paraxial imaging, which is the diffusive generalization of the transport-of-intensity equation. Specifically, we utilize the Fokker-Planck equation in the context of propagation-based phase-contrast imaging, where we show that two intensity images are sufficient for successful retrieval of both the projected thickness and the dark-field signal associated with the sample. We show the results of our algorithm using both a simulated dataset and an experimental dataset. These demonstrate that the x-ray dark-field signal can be extracted from propagation-based images, and that sample thickness can be retrieved with better spatial resolution when dark-field effects are taken into account. We anticipate the proposed algorithm will be of benefit in biomedical imaging, industrial settings, and other non-invasive imaging applications.

Topics & Concepts

PhysicsParaxial approximationContext (archaeology)Fokker–Planck equationOpticsField (mathematics)Dark field microscopyPartial differential equationMathematicsQuantum mechanicsMicroscopyPure mathematicsBeam (structure)PaleontologyBiologyAdvanced X-ray Imaging TechniquesX-ray Spectroscopy and Fluorescence AnalysisAdvanced X-ray and CT Imaging