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Multiscale pink-beam microCT imaging at the ESRF-ID17 biomedical beamline

Alberto Mittone, Luca Fardin, Francesca Di Lillo, Michela Fratini, H. Requardt, Anthony Mauro, Roberto Arturo Homs-Regojo, Paul-Antoine Douissard, Giacomo E. Barbone, Johannes Stroebel, Mariele Romano, Lorenzo Massimi, Ginevra Begani Provinciali, Francesca Palermo, Sam Bayat, Alessia Cedola, Paola Coan, Alberto Bravin

2020Journal of Synchrotron Radiation34 citationsDOI

Abstract

Recent trends in hard X-ray micro-computed tomography (microCT) aim at increasing both spatial and temporal resolutions. These challenges require intense photon beams. Filtered synchrotron radiation beams, also referred to as `pink beams', which are emitted by wigglers or bending magnets, meet this need, owing to their broad energy range. In this work, the new microCT station installed at the biomedical beamline ID17 of the European Synchrotron is described and an overview of the preliminary results obtained for different biomedical-imaging applications is given. This new instrument expands the capabilities of the beamline towards sub-micrometre voxel size scale and simultaneous multi-resolution imaging. The current setup allows the acquisition of tomographic datasets more than one order of magnitude faster than with a monochromatic beam configuration.

Topics & Concepts

BeamlineSynchrotronSynchrotron radiationOpticsBeam (structure)Advanced Photon SourceImage resolutionTomographic reconstructionPhysicsMonochromatic colorMedical physicsMaterials scienceTomographyMedical Imaging Techniques and ApplicationsAdvanced X-ray Imaging TechniquesAdvanced X-ray and CT Imaging
Multiscale pink-beam microCT imaging at the ESRF-ID17 biomedical beamline | Litcius