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develop a comprehensive simulation framework that bridges microscopic semiconductor morphology with macroscopic charge transport dynamics, ultimately supporting the design of innovative touch sensor
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artificial skin" project. The primary objective is to develop a comprehensive simulation framework that bridges microscopic semiconductor morphology with macroscopic charge transport dynamics, ultimately
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research facility that brings together advanced simulation tools, realistic emulators, and innovative testbeds to revolutionise smart grid research and 6G communication s . The group is equipped with
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research areas relevant to the project: solar magnetic field modelling, computational fluid dynamics, or solar observational data analysis. Working knowledge of at least one scientific computing environment
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, flavour physics, model building, Monte Carlo simulations, precision standard model physics, neutrino physics, particle astrophysics, strong interactions and novel computational methods. They will have an
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model physics, electroweak and Higgs physics, flavour physics, model building, Monte Carlo simulations, precision standard model physics, neutrino physics, particle astrophysics, strong interactions and