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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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to ensure all project deliverables are met. Undertake these responsibilities in the project: 1. Wave Stochastic Analysis and Hydrodynamics Conduct advanced stochastic analysis of wave environments to evaluate
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of the Korean Wave (Hallyu), commencing on 1 October 2026 or as soon as possible thereafter. This Fellowship forms part of the Hallyu South Korean Studies Programme and offers an exciting opportunity for an early
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theoretical frameworks for the coupling between multiscale flows involving ocean surface waves, submesoscale current, turbulence, and wind actions. The research aims to derive a highly accurate and efficient
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waves emitted in) binary black hole coalescence (including the inspiral, merger and ringdown phases) through perturbative (post-Newtonian and black hole perturbation theory) and non-perturbative
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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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measurements including airborne acoustics, air-coupled ultrasonics, structural vibration/waves. Work in specialist facilities including anechoic chambers and controlled experimental environments, ensuring high
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., vibroacoustics/wave propagation in complex media; soil–plant coupling where relevant), including parameter studies and sensitivity analyses. Work iteratively with experimental colleagues to guide measurement
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Department of Botany and Zoology, Faculty of Science, Masaryk University in Brno | Czech | 6 days ago
are the backbone of modern civilization. But what if the very cables carrying our data could also be used to eavesdrop on our voices? This PhD project investigates the Acousto-Optical effect, where acoustic waves
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the University of Oslo. Place of work is the Department of Mathematics at Blindern, Oslo. Ocean waves follow complex patterns influenced by wind, currents, and the shape of the seafloor. Predicting