Characterisation of phase-contrast and phase-retrieval X-ray tomography techniques at the I12-JEEP beamline

Abstract

The high brilliance and coherence of light generated at synchrotron facilities make synchrotron X-ray imaging an invaluable tool for the non-destructive analysis of samples across a range of interdisciplinary sciences. For samples with low attenuation contrast, phase-contrast imaging and phase-retrieval techniques can be used to enhance image contrast and provide complementary phase-shift information. In this work, we demonstrate the phase-contrast imaging capabilities of the Diamond Light Source I12-JEEP beamline using two samples: a fly encased in 4 mm of steel, and a lower chicken leg (drumstick) bones with surrounding soft tissue. Techniques such as X-ray phase-contrast imaging, near-field speckle-based phase-contrast tomography and propagation-based (in-line) phase-contrast tomography are investigated; additionally, the effects of propagation distance, speckle mask material, number of speckle positions, and phase-retrieval algorithm on the quality of radiographic images and reconstructed tomography volumes are compared. The experimental setup, data acquisition settings, as well as phase retrieval and tomography reconstruction parameters are detailed, and concluding remarks are made regarding the strengths and weaknesses of each technique, their use case, and how the data acquisition parameters can be optimised for an extended field-of-view or in-situ imaging setup available at I12.