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of advanced Neutron and X-ray Science. The project will address scientific and sectoral gaps in biological imaging ranging from molecular, through cellular, to tissue, organ and organism levels of organisation
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biological imaging ranging from molecular, through cellular, to tissue, organ and organism levels of organisation, and is coordinated by LINXS Institute of advanced Neutron and X-ray Science. AMBER is funded
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imaging ranging from molecular, through cellular, to tissue, organ and organism levels of organisation, and is coordinated by LINXS Institute of advanced Neutron and X-ray Science. AMBER is funded by the EU
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to be realized at FlexPES. These research projects can cover areas of molecular adsorption, on-surface reactions, growth and characterization of 2D materials, thin films, nanostructures, and similar
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—typically developed in Unity—to offload compute-intensive tasks dynamically across a distributed infrastructure. A critical part of this effort will involve integrating and exposing hardware accelerators
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to logistics and supply chain simulation. Experience in engaging with industry partners and translating research into practical outcomes. Assessment criteria This is a career development position primarily
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briefly describe yourself and your research interests, including contributions to the described research project. The application must also contain a CV, a copy of the doctoral degree certificate, a list of
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material structures (3D) and their evolution (4D), particularly for fibre-based materials but also porous and granular materials. You will be part of a dynamic, international team involved in experimental
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associated with the Soil Chemistry group, where you would carry out research on the speciation and dynamics of metals in both contaminated and natural soils. Metals of particular interest are cadmium and