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vibrations induced by railway traffic, using nonlinear and spatially varying metamaterials. Despite decades of research, low-frequency railway vibrations (4–20 Hz) remain a persistent challenge, affecting both
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management of plasmonic nanostructures. This collaborative project aims to develop approaches to (a) measure and (b) reduce the local temperature around optically excited (and thereby photothermally heated
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8 Nov 2025 Job Information Organisation/Company Eindhoven University of Technology (TU/e) Research Field Engineering » Materials engineering Engineering » Thermal engineering Physics » Optics
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programme will proceed in three main phases. In the initial phase, you will develop and optimize physical and numerical models describing the electron optics of the complete probe-forming column, including
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photonic integrated circuits. (PICs). Specifically, we will be looking at optical amplifiers, lasers and photodetectors, with a focus on noise and high-power behavior. Such compact models will propel
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purposes. The Erasmus Behavioural Lab offers outstanding facilities, including video observation, EEG, eye-tracking, virtual reality, experience sampling, and biofeedback: https://www.eur.nl/essb/informatie
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an interdisciplinary field and team. You have excellent communication and writing skills (in English). It would be advantageous if you have experience with any of the following: optical tweezers, chromatin biology
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. Your work bridges circuit design, electromagnetic modeling, quasi-optical system analysis and hands-on validation. A key part of your role is the realization of experimental demonstrations. You will
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optics and study this at the micro-to-nanoscale using spins in diamond. Job description Research in the van der Sar lab: Our lab studies how interacting charges and spins move through materials
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Photoacoustic metrology Job description In semiconductor manufacturing, optical metrology is a standard method to determine the exact position of printed features on a wafer (overlay), as