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the leadership of Erik Wennerberg , we are seeking to appoint a Postdoctoral Training Fellow to join the Radiation-enhanced Immunotherapy Group to study how radiotherapy alters the tumour microenvironment in solid
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radiobiology, computational modelling, medical physics or other relevant field (or pending results) - (Grade 6 only) Highly computer literate with coding expertise, e.g. MATLAB, Python Expertise in dosimetry
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skills and experience: Essential criteria BSc (2:1 or above) in Physics or other relevant field - (Grade 5) PhD awarded or near completion in radiobiology, computational modelling, medical physics or other
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. This role is focused on research to enable ultra-high power GaN RF devices, including developing new laser-based optical systems to study temperature as well as electric fields that limits device performance
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applied to reactor multi-physics (static and dynamic), radiation shielding and variance reduction, medical physics and charged particle transport, and algorithmic acceleration techniques. Researchers will
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. Experience of in vivo research and of the use of external radiation sources and/or radioisotopes would be advantageous. Application process If you would like to discuss this role please contact Professor
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the role of genetic and environmental factors in physical and mental health multimorbidity development. You will join a consortium of researchers funded by a £3,632,000 grant from the Medical Research
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to developing research areas applicable to the field of radiation oncology and biology. Successful candidates will be expected to contribute to the Department’s taught post-graduate programmes, for up to 15
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, intra-satellite data transmission and novel medical diagnostics, providing further opportunity for collaboration. The gas dynamics within the hollow regions of these novel fibres are a key factor in their
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. The project is focussed on revolutionary hollow core optical fibres which guide light in air rather than glass. This increases the speed at which information is transmitted by 50%, and these fibres will form a