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Boosting spatial resolution by incorporating periodic boundary conditions into single-distance hard-x-ray phase retrieval

David M. Paganin, V. Favre‐Nicolin, Alessandro Mirone, Alexander Rack, Julie Villanova, Margie P. Olbinado, Vincent Fernández, Júlio César da Silva, Daniele Pelliccia

2020Journal of Optics29 citationsDOIOpen Access PDF

Abstract

Abstract A simple coherent-imaging method due to Paganin et al is widely employed for phase–amplitude reconstruction of samples using a single paraxial x-ray propagation-based phase-contrast image. The method assumes that the sample-to-detector distance is sufficiently small for the associated Fresnel number to be large compared to unity. The algorithm is particularly effective when employed in a tomographic setting, using a single propagation-based phase-contrast image for each projection. Here we develop a simple extension of the method, which improves the reconstructed contrast of very fine sample features. This provides first-principles motivation for boosting fine spatial detail associated with high Fourier frequencies, relative to the original method, and was inspired by several recent works employing empirically-obtained Fourier filters to a similar end.

Topics & Concepts

OpticsFourier transformPhase retrievalSpatial frequencyPhase-contrast imagingParaxial approximationAmplitudeSample (material)Contrast (vision)DetectorImage resolutionAlgorithmPhysicsComputer sciencePhase contrast microscopyBeam (structure)Quantum mechanicsThermodynamicsAdvanced X-ray Imaging TechniquesLaser-Plasma Interactions and DiagnosticsX-ray Spectroscopy and Fluorescence Analysis
Boosting spatial resolution by incorporating periodic boundary conditions into single-distance hard-x-ray phase retrieval | Litcius