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the design and optimization of multistatic and multifrequency radar architectures for near-field 3D imaging. - Contribute to the electromagnetic modeling of radiating systems, wave-object interaction, and
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Website https://cp3.irmp.ucl.ac.be/job/117 Requirements Research FieldPhysicsEducation LevelMaster Degree or equivalent Skills/Qualifications Good understanding of gravitational-wave physics and good coding
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Help us pioneer gravitational wave probes of dark matter. Do you want to work at the interface of general relativity, cosmology, and data analysis, and help build the tools that will make dark
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simultaneous wave interactions, including reflections, diffractions, refraction, and turbulence-induced scattering. Such effects not only complicate noise prediction but also disrupt conventional approaches
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to imaging with geophysical data. Our research focuses on mathematical methods for processing, imaging, and inversion of geophysical data, the physics of wave propagation, and the development of innovative
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(PBs) offer a promising alternative, reducing wave energy through dissipation and controlled overtopping, potentially mitigating flood risk while minimising environmental impact (Nimma & Srineash 2025
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EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Help us pioneer gravitational wave probes of dark matter. Do you want to work at the interface
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practical terms, this means that vortices, waves, and other flow disturbances can travel long distances without losing their shape or energy artificially, which is essential for high-fidelity transient
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models, in-house laboratory tests in a wind-wave-current flume (https://research.ncl.ac.uk/amh/ ) and numerical methodology to quantify biofouling impacts on flow-induced vibration phenomena, structural
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emphasizes community-led processes integrating social, environmental, and cultural dimensions of urban transformation, aligned with New European Bauhaus principles and the EU Renovation Wave strategy