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the possibilities and limitations of the use of CL in semiconductor metrology and to develop practical workflows for CL tomography. The project will be carried out in close collaboration with
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is highly committed to an inclusive and diverse work environment: we want to develop talent and creativity by bringing together people from different backgrounds and cultures. We recruit and select on
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between inanimate and living systems, between materials and computers, and redefine our understanding of natural and artificial intelligence. We use modelling and experimental data to develop and understand
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an open and collaborative environment in which we focus on hands-on learning and personal growth of all group members. We are looking for excited and talented students, who are eager to develop new skills
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the NWO research programme NanoXUV we will develop nanophotonic structures that convert infrared wavelengths to coherent structured light of very short wavelength, in the UV and even extreme ultraviolet
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Are you looking for a challenging project in which you develop fundamental advances in metaphotonics and work with high-tech industry to apply them? In this project we aim to develop nanophotonic
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functions by incorporating suitable materials? If so, what are the limits in energy and speed? Can you train such active metasurfaces to realize all-optical neural network functions? We envision using novel
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their performance (using e.g., automated code generation, train-of-thought prompting, etc.). We will use our GPU cluster to fine-tune the LLM using reinforcement learning, so the system continuously learns and
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to undertake this pilot project. The project lies at the interface of electromagnetic modelling and theory and deep learning methods. You will develop methods and test them towards the inverse design of state
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of CL in semiconductor metrology and to develop practical workflows for CL tomography. The project will be carried out in close collaboration with the neighboring Advanced Research Center