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The School of Mechanical & Aerospace Engineering (MAE) is a robust, dynamic and multi-disciplinary international research community comprising of world-class scientists and bright students. MAE
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Fluid Dynamics at the University of Exeter to work on an STFC funded project to investigate the observational signatures of nonlinear damping of MHD kink waves. In particular this project will focus
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employ are drawn from theoretical physics (e.g., statistical mechanics, bifurcation theory, the theory of extended nonlinear dynamical systems), from information theory, and from the theory of stochastic
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and numerical methods for analyzing stochastic transport equations, which are critical for understanding how random fluctuations affect dynamic systems such as turbulence, water waves, and compressible
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background in physics, applied mathematics, Earth science, or a related discipline Skills in numerical modelling, programming, and handling large datasets Interest in nonlinear dynamics and complex systems
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fluctuations affect dynamic systems such as turbulence, water waves, and compressible fluid motion. The research will focus on hyperbolic-parabolic partial differential equations, nonlinear wave equations, and
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is part of a broader research initiative encompassing fundamental studies of nonlinear quantum light–matter interactions leading to the realization of quantum photonic neural networks. The successful
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, looking at downstream effects of abrupt changes that result in changes of variability and extremes downstream in nonlinear models, and contributing to evaluating transients during spin-up of climate models
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experience in data-knowledge fusion-driven dynamic modeling of complex structures, specializing in uncertainty quantification of nonlinear systems and intelligent model order reduction methods, with at least
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internationally recognised for its expertise in computational fluid dynamics (CFD), multiphase and multiphysics flow, and nonlinear solid mechanics, supported by access to world-class high-performance computing