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Field
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with an eye for diversity, different backgrounds and opinions, our employees work closely together to solve societal challenges from the dynamic and cosmopolitan city of Rotterdam. Thanks to the high
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apply new knowledge and approaches in practice; a pro-active personality and a true troubleshooting mentality; demonstrable experience of laser systems and optics and/or experience gained in a research
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protocols for hemianopia patients. Unilateral damage to the central neural pathways connecting the eye to the brain leads to half-sided blindness, commonly known as hemianopia. Although it does not cause
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simulation models do not fully capture the complex, temperature-dependent, anisotropic, and evolving optical and thermal properties of thermoplastic composite materials. In addition, the desired prediction
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, post-processing tools. Mechanical testing: tensile, hardness, nanoindentation, in-situ testing. Microstructural analysis: optical microscopy, SEM, EBSD, XRD. The expected start date is December 2025 (but
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imaging systems capable of penetrating fog, dust, and even certain solid materials. These systems will deliver detailed, high-resolution imaging in challenging conditions where conventional optical sensors
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consequences in cardiomyocytes and other cell types, including neurons, and study how they interact. To achieve this, you will combine electrophysiological techniques, such as patch-clamp analysis and optical
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optics, magnetic resonance and nanoscale fabrication to detect and control individual spins associated to defect centers. With these controlled systems of coupled spins, we aim to answer questions such as
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international teams. You will also have full access to the group's state-of-the-art measurement setups for magneto-optic spectroscopy at room and cryogenic temperatures down to 40 mK. Requirements Master degree
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their applications for quantum science and technology. We use a combination of quantum optics, magnetic resonance and nanoscale fabrication to detect and control individual spins associated to defect