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systems, such as slime molds (e.g. Physarum Polycephalum, living fluidic networks) as well as systems in our own bodies (immune and vascular systems). Such systems exist in complex changing environments
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from the semiconductor industry to reduce critical dimension and target size, drives metrology research to exploit the complex behaviour of light in structures at subwavelength scale. We aim to develop a
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-made complex matter, with research in 4 interconnected themes: nanophotonics, nanophotovoltaics, designer matter, and biophysics. AMOLF leverages these insights to create novel functional materials, and
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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