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Associação do Instituto Superior Técnico para a Investigação e Desenvolvimento _IST-ID | Portugal | about 1 month ago
-2022-Access-07-01” programme Workplan: The candidate to be selected is expected to support and work on research activities in the area of “Probabilistic Distribution of Extreme Waves”. Duration
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Associação do Instituto Superior Técnico para a Investigação e Desenvolvimento _IST-ID | Portugal | about 1 month ago
-2022-Access-07-01” programme Workplan: The candidate to be selected is expected to support and work on research activities in the area of “Wave Data Analysis”. Duration: The research fellowship(s) will
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and Laminar Flow Control Job description About the project: The MetaWing project explores a new disruptive concept for flow control, first born in classical wave physics: Metamaterials
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-ready control of electromagnetic waves. Unlike current solutions—which are energy-intensive, complex, and costly—MetaTune proposes unified tuning mechanisms, innovative materials, and cost‑effective
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dynamic, optically unpredictable environments, dominated by waves, specular reflection, cloud-dependent illumination, and variable scattering. These factors significantly degrade sensor reliability, leading
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wave attenuation for discriminating microstructural effects of thermal damage from moisture conditions in concrete, NDT & E International, 156, 2025. https://doi.org/10.1016/j.ndteint.2025.103473 [2] Y
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enzymatic assays monitored by spectrophotometry. - Potentiometric titrations under anaerobic conditions and investigations using continuous-wave Electron Paramagnetic Resonance (EPR) spectroscopy under
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al., Phys. Rev. Lett. 128, 063001 (2022) “Reconstruction of the time-dependent electronic wave packet arising from molecular autoionization”, R. Bello et al., Science Advances 4, eaat3962 (2018
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. Photoacoustic sensing (introductory video: https://youtu.be/2f3V0DQNLYg ) is based on a transformation of absorbed optical energy into ultrasound waves, when a transient optical excitation is used. The optical
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, contactless, and effective across a wide range of particle types. Recent advances in acoustic tweezers and surface acoustic waves demonstrate micron-scale precision, but current techniques remain limited