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manufacturing (AM). This PhD/Post-doc focuses on enhancing the capabilities of XCT (X-ray Computed Tomography) technique by applying artificial intelligence to the reconstruction of the volumes, noise reduction
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including: In-situ, operando and ex-situ techniques (X-ray and neutron, computed X-ray tomography, spectroscopy) Electron microscopy (eg FIB/SEM, EDX and sample preparation) With a background in the field
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Science at the School of Health Sciences is seeking to appoint a Postdoctoral Research associate in medical Imaging to support research funded by an NHMRC Synergy Grant on ‘Implementation of x-ray Phase
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-ray computed tomography, scanning electron microscopy, or other microscopy 3D techniques, is desirable. These modeling and microscopy approaches will be combined with experimental data to evaluate
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, and systemic transmission. Structural biology and bioimaging tools may include but are not limited to X-ray crystallography, single-particle cryo-electron microscopy, confocal light microscopy, X-ray
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safety, security and safeguards (Professor Peter Dendooven) medical imaging, including X-ray tomography and electrical impedance tomography (Professor Samuli Siltanen) probabilistic methods in inverse
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characterizing cells and tissues using live-cell imaging, X-ray tomography or X-ray fluorescence imaging. • Experience in the identification and characterization of protein-protein interactions using fluorescence
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all cases, the amorphous nature of the materials produced will be assessed by XRD, DSC and, if necessary, TEM. The possible presence of residual porosity will be studied by X-ray micro-tomography
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strategies (Professor Gregor Hillers) gamma ray imaging for nuclear safety, security and safeguards (Professor Peter Dendooven) medical imaging, including X-ray tomography and electrical impedance tomography
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techniques (SAXS/WAXS tensor tomography). The coherence of X-ray nano-beams can also be exploited for ptychography and similar applications. The current research programme is covering a wide range of materials