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Micro-Computed Tomography Beamline of the Australian Synchrotron: Micron-Size Spatial Resolution X-ray Imaging

Benedicta D. Arhatari, A. W. Stevenson, Darren Thompson, Adam Walsh, Tom Fiala, Gary Ruben, Nader Afshar, Sinem Ozbilgen, Tingting Feng, Stephen Mudie, Prithi Tissa

2023Applied Sciences21 citationsDOIOpen Access PDF

Abstract

The first new beamline of the BRIGHT project—involving the construction of eight new beamlines at the Australian Synchrotron—is the Micro-Computed Tomography (MCT) beamline. MCT will extend the facility’s capability for higher spatial resolution X-ray-computed tomographic imaging allowing for commensurately smaller samples in comparison with the existing Imaging and Medical Beamline (IMBL). The source is a bending-magnet and it is operating in the X-ray energy range from 8 to 40 keV. The beamline provides important new capability for a range of biological and material-science applications. Several imaging modes will be offered such as various X-ray phase-contrast modalities (propagation-based, grating-based, and speckle-based), in addition to conventional absorption contrast. The unique properties of synchrotron radiation sources (high coherence, energy tunability, and high brightness) are predominantly well-suited for producing phase contrast data. An update on the progress of the MCT project in delivering high-spatial-resolution imaging (in the order of micron size) of mm-scale objects will be presented in detail with some imaging results from the hot-commissioning stage.

Topics & Concepts

BeamlineOpticsSynchrotron radiationSynchrotronPhase-contrast imagingImage resolutionBrightnessPhysicsTomographic reconstructionTomographyMaterials scienceMedical physicsBeam (structure)Phase contrast microscopyAdvanced X-ray Imaging TechniquesAdvanced X-ray and CT ImagingMedical Imaging Techniques and Applications