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of synchronised states using analytical and statistical techniques. Funding Notes This project is for self-funded or externally funded students only. References 1. Synchronisation of rotating turbulent (https://www
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status rate at the School of Mechanical, Aerospace and Civil Engineering at the University of Sheffield under the supervision of Professor Pierre Ricco (http://www.pierre-ricco.co.uk/). Additionally
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Postdoctoral Researcher to lead a groundbreaking 2-year project at the intersection of plasma physics, advanced diagnostics, and photonic engineering. The Challenge: Unlocking the Secrets of Plasma Turbulence
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Modeling, Analysis & Prediction of Particle-laden Real-Gas Supersonic Turbulence. (Ref. 10267290001)
Description Mission: Carry out the modeling, analysis and prediction of real gas supersonic turbulence. Fuctions to be developed: Develop tools to aid analysis. Perform experimental and computational analyses
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dependent educational benefits Life insurance coverage Employee discounts programs For detailed information on benefits and eligibility, please visit: http://uhr.rutgers.edu/benefits/benefits-overview
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, physics, atmospheric sciences, or a closely related field. - Strong publication record and demonstrated experience in experimental fluid dynamics, turbulence, and wind energy. - Experience with wind-tunnel
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via theory, numerical models, and observations (particularly satellite altimetry). This includes analytic and numerical investigations of submesoscale turbulence and wave-turbulence interactions, and
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Physics-Informed Data Assimilation in Wall-Bounded Turbulence School of Mathematical and Physical Sciences PhD Research Project Self Funded Dr Yi Li, Dr Ashley Willis Application Deadline
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; no new applications will be accepted after 2025/12/05 11:59PM US Eastern Time. Position Description Project Title: The Impact of Conversion of Tropical Rainforest to Oil Palm Plantation on Turbulent
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Advanced Grant research project NoStaHo which is aimed at an extensively transformative fundamental understanding and theory of non-stationary and/or non-homogeneous turbulence. He/she will participate in