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Field
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research hub with strengths in mathematical modelling and computational methods for wave propagation phenomena. The role | Te mahi We invite applications for a Postdoctoral Fellow to join a world-leading
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datasets from laboratory experiments will be provided to support simulation and verification of the resulting model. Replicate and learn a theoretical model for wave and current interaction by posing
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pollination. This project will combine experiments, analysis and multiphysics modelling to establish credible mechanisms, limits and open datasets for plant acoustic emission and reception. We are recruiting a
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project “PRICE-SCM (p owder amor phisation usi ng shoc k wave s for s upplementary c ementitious m aterials production)”, ran in collaboration between the University of Exeter and the UK Central Laser
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Experience in one or more of the following topics: Bayesian Inference, gravitational wave data analysis, or gravitational wave modeling. Demonstrate research experience and record of publication
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and wave-equation–based modeling, including familiarity with adjoint-state methods, gradient-based optimization, and multi-scale inversion strategies. Proven expertise in machine learning and deep
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for simulation and modeling of wave dynamics, and for uncertainty quantification of extreme events. The project will combine stochastic mathematical models of wave physics with advanced computational methods
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of modular floating structures. Optimize designs for dynamic environmental conditions (e.g., waves, tides, currents). Finite Element and Structural Modeling: Develop and implement finite element models
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to explore new quantum fields and forces and probe physical phenomena with extremely weak couplings, such as light dark matter, axions, and gravitational waves, by pioneering the weak coupling frontier through
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core scientific areas, including wave dynamics, marine and environmental processes, and particle and pollutant transport, with fluid mechanics as the scientific backbone. A central component will be