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learning system figuring out how to solve a task, possibly classifying images of cats and dogs; now imagine a physical material doing the same thing – without any computer involved! In our group, we strive
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Are you fascinated by the idea of using light for all-optical information processing? Can you envision optical metasurfaces that perform operations on data at the speed of light? Are you motivated
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their environment. More information on the network and the opportunities it offers can be found here: https://euraxess.ec.europa.eu/jobs/214286 . About the group Our group focuses specifically on processes
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fluorescence, which detect changes in individual molecules at nanometer and millisecond resolution. Direct collaboration with our partners provides complementary genome-wide in-vivo data (see below). This first
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polarization distribution of the emitted light ? What physical mechanisms determine how the nonlinear emission is sensitive to metasurface geometry, thus revealing structural information of interest
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current wafer metrology, wafers are inspected at visible wavelengths using dedicated grating patterns that reveal fine positional and dimensional information in their scattering spectrum. The strong desire
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physicists, chemists, or biologists with an interest in organoid biology, genetic engineering, AI and programming, complex data, and who thrives in a diverse, collaborative, and supportive environment
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to derive characteristic materials properties and feature sizes in 3D from the collected data sets. The project ranges from studies of simple model systems to complex structures like nanosheet transistors
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at AMOLF and beyond. Moreover, we work closely together with international groups and companies. For more information, see https://amolf.nl/research-groups/self-organizing-matter Qualifications We seek