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interactions and numerical model- ing. Strong programming skills and running regional or global numerical models (wave, oceanic and possibly atmospheric) are also essential. Applicants should submit a brief
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significantly improve the resolution of regional models of the crust and upper mantle of the FMC, including the distributions of shear wave velocities and radial and azimuthal anisotropies (e.g., Mordret et al
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discipline. Strong experience in numerical/computational modelling (e.g., FEM/multiphysics, wave propagation, computational mechanics). Evidence of scientific programming and good software/reproducibility
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study the transformation of initially spherical liquid droplets under the effect of radiation stresses, or “radiation pressure,” from ultrasonic waves (MHz) using both theoretical and numerical models
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solutions for vibration and noise control in lightweight structures (https://cordis.europa.eu/project/id/101227712 ). The project focuses on the development of Acoustic Black Hole (ABH) technologies
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observations and employing theoretical models to: (a) improve the understanding of the wind-driven ocean surface wave spectrum that drives the relationship between the ocean wind and the radar backscatter; (b
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respond to sound in ways that influence physiology, root function and pollination. This project will combine experiments, analysis and multiphysics modelling to establish credible mechanisms, limits and
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magnetosphere. The incumbent shall analyze particle precipitation from low-altitude spacecraft, in conjunction with particle and wave measurements from near-equatorial spacecraft, and theoretically model electron
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analyze particle precipitation from low-altitude spacecraft, in conjunction with particle and wave measurements from near-equatorial spacecraft, and theoretically model electron precipitation driven by
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time. The PhD will combine experiments, modeling, and numerical simulations. The experimental work will involve the design and fabrication of bubble metascreens using 3D printing, laser cutting, and