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ecosystems. Natural vegetated coastal habitats, by contrast, support high biodiversity, sequester carbon and attenuate waves, though may not fully protect coastal assets. This PhD project investigates
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-reciprocity of spin waves Angular Momentum of Magnons Magnetically doped Transition Metal Dichalcogenide Thin Films via Molecular Beam Epitaxy Modeling of a magnonic diode based on spin-wave non-reciprocity in
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My primary areas of research activity are two fold: first, studing thermonuclear (X-ray) bursts from accreting neutron stars; and second, searches for optical counterparts of gravitational-wave
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), wave propagation modeling in complex 3D geometries, development and optimization of event detection algorithms, high-precision localization methods, event magnitude as well as source characterization
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will focus on understanding, modelling, and controlling these topologically-protected spin waves, addressing both fundamental questions and potential applications. Your job This project consists of a
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nanofabrication, electromagnetic and micromagnetic computational modelling, theoretical and experimental analysis of electromagnetic properties of metamaterials, as well as the fundamentals of microwave
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significant impact, both on the flow and on the reflection of acoustic waves at the ground. Predicting wind turbine noise therefore relies on numerical simulations. Numerous numerical methods have been
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the environment, specifically offshore wind maintenance modelling. The role is for the third intake of the EnerHy programme which commences in October 2026. Research project overview: This PhD research
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, contains: The construction of an experimental setup for the precise generation of ultrasonic guided waves. The exploration of diverse strategies for interrogating optical fibers utilizing the intricacies
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of advanced antenna technologies for Integrated Sensing and Communication (ISAC) systems. The research will investigate passive and active antenna arrays operating in centimeter- and millimeter-wave bands