A Gaussian Extension for Diffraction Enhanced Imaging

Overview

Journal Sci Rep

Specialty Science

Date 2018 Jan 12

PMID 29321544

Citations 3

Authors

Fulvia Arfelli

Alberto Astolfo

Luigi Rigon

Ralf Hendrik Menk

Affiliations

Soon will be listed here.

Abstract

Unlike conventional x-ray attenuation one of the advantages of phase contrast x-ray imaging is its capability of extracting useful physical properties of the sample. In particular the possibility to obtain information from small angle scattering about unresolvable structures with sub-pixel resolution sensitivity has drawn attention for both medical and material science applications. We report on a novel algorithm for the analyzer based x-ray phase contrast imaging modality, which allows the robust separation of absorption, refraction and scattering effects from three measured x-ray images. This analytical approach is based on a simple Gaussian description of the analyzer transmission function and this method is capable of retrieving refraction and small angle scattering angles in the full angular range typical of biological samples. After a validation of the algorithm with a simulation code, which demonstrated the potential of this highly sensitive method, we have applied this theoretical framework to experimental data on a phantom and biological tissues obtained with synchrotron radiation. Owing to its extended angular acceptance range the algorithm allows precise assessment of local scattering distributions at biocompatible radiation doses, which in turn might yield a quantitative characterization tool with sufficient structural sensitivity on a submicron length scale.

Citing Articles

On the equivalence of the X-ray scattering retrieval with beam tracking and analyser-based imaging using a synchrotron source.

Peiffer C, Brombal L, Jones C, Arfelli F, Astolfo A, Dreossi D J Phys D Appl Phys. 2023; 56(45):45LT02.

PMID: 37601626 PMC: 10437003. DOI: 10.1088/1361-6463/acee8c.

Crystal optics simulations for delineation of the three-dimensional cellular nuclear distribution using analyzer-based refraction-contrast computed tomography.

Sunaguchi N, Huang Z, Shimao D, Ichihara S, Nishimura R, Iwakoshi A Sci Rep. 2022; 12(1):19595.

PMID: 36380223 PMC: 9666655. DOI: 10.1038/s41598-022-24249-8.

Diffraction Enhanced Imaging Analysis with Pseudo-Voigt Fit Function.

Mani D, Kupsch A, Muller B, Bruno G J Imaging. 2022; 8(8).

PMID: 35893084 PMC: 9330705. DOI: 10.3390/jimaging8080206.

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