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, contains: The VUB Acoustics and Vibrations Research group has a core focus on wind energy as a member of OWI-lab. Our vision is to bring methodological advancements all the way to application in industry
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benchmarking (Frank et al., arXiv:2024) using blind testing approaches. The student will develop verification-based benchmarking approaches for digital quantum computers with realistic noise models, leading
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! The interaction between terahertz (THz) radiation and the collective vibrational modes of biological macromolecules is an emerging field in physical chemistry. Terahertz radiation can be exploited to studying
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This project focuses on reducing aerofoil broadband noise, specifically turbulence–leading edge interaction noise and trailing edge self-noise, commonly encountered in aero-engines, wind turbines
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cooling air. The aerospace requirements for accurate steady and transient thermal control in challenging operating temperature and vibration rich environments drives the need for bespoke, innovative low
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-phonon interactions, which together form tri-partite coupling that gives rise to effective optomechanical interaction between collective excitonic states (optical) and vibrational modes (mechanical
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. Lightweight aerostructures with high shear strength, vibration damping, and acoustic attenuation are crucial for meeting strength and noise certification requirements in the aerospace industry. Certain thin
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strength-to-weight ratio, corrosion resistance, and high-temperature strength sustainability. Lightweight aerostructures with high shear strength, vibration damping, and acoustic attenuation are crucial
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norms and behaviours, social processes of change, public understanding of, and concern about, potential environmental threats such as microplastics, forever chemicals, underwater noise, and 5G RF-EMFs
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norms and behaviours, social processes of change, public understanding of, and concern about, potential environmental threats such as microplastics, forever chemicals, underwater noise, and 5G RF-EMFs