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Application deadline: 30/04/2026 Research theme: Nuclear Engineering How to apply: https://uom.link/pgr-apply-2425 This 3.5-year PhD project is fully funded; home students are eligible to apply
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at the molecular scale. Grand Canonical Monte Carlo (GCMC) simulations will be performed to predict adsorption isotherms and selectivities. Molecular dynamics simulations will be used to investigate diffusion
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. The exploitation of these data (topography, flow history, vulnerability indicators) ensures the calibration and validation of the models. Monte Carlo simulations ensure the propagation of uncertainty through
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combines state-of-the-art computational multiscale modelling (using DFT/TDDFT methods, collision theory, molecular dynamics, stochastic dynamics, Monte Carlo and analytical methods) and its thorough
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amplitude estimation to improve extreme adaptive optics (XAO) performance of the Extremely Large Telescope’s future Planetary Camera and Spectrograph instrument Compare via Monte Carlo models viable wavefront
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combines state-of-the-art computational multiscale modelling (using DFT/TDDFT methods, collision theory, molecular dynamics, stochastic dynamics, Monte Carlo and analytical methods) and its thorough
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to determine these materials’ chemical structure and its effect on their properties. This project will use theoretical modelling (density-functional theory and Monte Carlo calculations) to investigate
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: https://www.sheffield.ac.uk/postgraduate/phd/apply/english-language. How to apply: Please see this link for information on how to apply: https://www.sheffield.ac.uk/cbe/postgraduate/phd/how-apply. Please
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theory/quantum Monte-Carlo. The starting date is in 2026 and is negotiable. We are looking for the researcher with experience in numerical lattice simulations in high energy physics and/or condensed matter
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the development and refinement of Monte Carlo simulation generators to accurately model neutrino interactions with various target materials. Detailed comparisons of these simulations to data from existing neutrino