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controller for wave energy converters), Some project detail: The EU Horizon SHY project is set to play a pivotal role in unlocking the potential of wave energy converters by developing key components of a
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, including interactions with waves - Proficiency in coupled ocean/sea ice numerical modeling in coastal Arctic environments - Proficiency in Python and Fortran programming languages Website for additional job
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. This involves accurate reproduction of the nonlinear waves by the wavemaker by utilization of cyber-physical modelling. Analysis of the generated short-crested nonlinear waves is needed to identify the incident
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National Aeronautics and Space Administration (NASA) | Greenbelt, Maryland | United States | about 8 hours ago
as bow and limb shocks, pickup ion acceleration, the growth of various wave modes in the mass loaded solar wind, cometary ray structures, ionosheath plasma depletion layers, drift mirror waves
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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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National Aeronautics and Space Administration (NASA) | Greenbelt, Maryland | United States | about 8 hours ago
to the weather prediction and climate projections. This is mainly due to our lack of understanding of cloud/snow ice microphysics and over-simplified representation in models. On a broader sense, although weather
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imaging inside human long bones (https://doi.org/10.1007/978-3-030-91979-5_10). For optimal imaging inside bone, one must consider the challenging 3D wave physics imposed by bone tissue: wave refraction
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geometry in control theory, etc.) and in the field of education. Many phenomena observed in the ocean or atmosphere are still not understood. Using compressible or incompressible models, we will seek
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-fidelity finite element models to investigate surface wave propagation in soft biological tissues, forming the foundation for subsequent statistical and machine learning frameworks that integrate
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part of the Beyond the Standard Model and Astroparticle Physics and Cosmology groups of IFAE (https://www.ifae.es/groups/theory/ ). The staff members of the group are D. Blas, E. Masso, A. Pomarol, O