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About the Role This is an opportunity to work as part of the team and project “Accelerating charged particles in space” funded by a Royal Society URF led by Dr Heli Hietala. The postdoc project
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Dr Heli Hietala. The postdoc project involves primarily simulations informed by observations, related data analysis and theory/models, comparing various aspects of shock particle acceleration and meso
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, understanding and manipulating interactions between charged particles and molecules in solution (Nature 2010, Nature Nanotech 2012, 2015, 2017, 2024). Recently the lab’s work has shed much needed light on
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About the role We are seeking a full-time Post Doctoral Research Assistant to join the Oxford Particles Research Group at the Department of Engineering Science (based at the Osney Thermofluids
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particles and molecules in solution (Nature 2010, Nature Nanotech 2012, 2015, 2017, 2024). Recently the lab’s work has shed much needed light on the long-standing and counterintuitive observation
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technologies for future particle vertexing and tracking silicon detectors. In close collaboration with other UK universities and STFC laboratories, as well as in partnership with international institutions and
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project will likely use a combination of single particle cryoEM, cryoET, and X-ray crystallography, you should be an expert in at least one of those techniques and keen to learn the others. You also should
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microscopy) studies that have begun to define the molecular basis for MX2’s interaction with the HIV-1 capsid lattice, and the disruptive sequelae of binding – for capsid structure, virion particle integrity
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of areas. You will join the ATLAS group in the Particle Physics Research Centre, working within our L1Calo team, making leading contributions to the ATLAS calorimeter trigger upgrade for the high
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of areas. You will join the ATLAS group in the Particle Physics Research Centre, working within our L1Calo team, making leading contributions to the ATLAS calorimeter trigger upgrade for the high