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disease patients using radiation therapy. The primary aim of this research is to develop real-time target tracking and/or dynamic imaging algorithms for implementation within radiotherapy and medical
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optical fields. The successful candidate will work on designing and analysing protocols that exploit quantum-optical channels-such as those encountered in coherent and incoherent spectroscopy To be
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analysing protocols that exploit quantum-optical channels-such as those encountered in coherent and incoherent spectroscopy To be successful in this position, you'll have / you'll have as a minimum: Evidence
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radiation therapy. The primary aim of this research is to develop real-time target tracking and/or dynamic imaging algorithms for implementation within radiotherapy and medical imaging. Within our research
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optical fields. The successful candidate will work on designing and analysing protocols that exploit quantum-optical channels-such as those encountered in coherent and incoherent spectroscopy To be
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on designing and analysing protocols that exploit quantum-optical channels—such as those encountered in coherent and incoherent spectroscopy To be successful in this position, you’ll have / you’ll have as a
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analysing protocols that exploit quantum-optical channels-such as those encountered in coherent and incoherent spectroscopy To be successful in this position, you'll have / you'll have as a minimum: Evidence
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‑zero mission and supporting sustainability targets by performing techno‑economic analysis of various Power‑to‑X conversion pathways. The position places particular emphasis on modelling end‑use scenarios
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, such as: Laser diffraction Thermogravimetric analysis (TGA) Dynamic vapour sorption (DVS) Differential scanning calorimetry (DSC) X‑ray diffractometry (XRD) Scanning and transmission electron microscopy
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solution chemistry laboratory and equipment usage, Demonstrated ability to use different methodologies in materials characterisation, including transmission electron microscopy, x-ray diffraction, scanning