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Field
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survivability. Together, these developments will provide essential rapid design tools for modelling wave-current-turbine array interactions, enabling better-informed design and operational decision making
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shape most of the cosmos we observe today. Many of the most compelling models in these areas predict stochastic backgrounds of gravitational waves—signals that may be detected by current and next
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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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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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Institut National des Sciences Appliquées de Lyon | Villeurbanne, Rhone Alpes | France | 16 days ago
will train a new generation of researchers at the interface of wave physics, acoustics and engineering. Through interdisciplinary research, international mobility and close collaboration with industry
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stellar interiors, birth properties of black holes and neutron stars, supernova light curves and spectra, gravitational waves, neutrino astrophysics, the production of heavy elements stellar explosions, and
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how ultrasound aligns particles and controls crystallisation to create materials with tailored anisotropy. Using experimental acoustics, modelling, and advanced characterisation, you will pioneer new
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will focus on two target systems: Natural media: Study the propagation of slow waves in model soft media (hydrogels and suspensions) and their interaction with a target, with a focus on the generated
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of time-varying photonic metamaterials. First-principles mathematical modeling of optic-wave physics in canonical geometries under space-time-varying polarization responses. Computer programming and
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structure dynamics including wave transmission and reflection, overtopping, mooring loading, and motion response across a range of realistic wave conditions. Numerical modelling using OpenFOAM and Delft3D