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Field
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research along the entire semiconductor value chain and on tailor-made synthetic diamonds. Whether high-frequency circuits for communications technology, voltage converter modules for electromobility, laser
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-situ measurement network and perform terrestrial laser scanning, analyzing microclimate data and their relation to forest structure, and using optical satellite time series and radiative transfer models
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lab (e.g. laser alignment, spectroscopy, photon counting, data acquisition/automation) is advantageous but not required; Alignment with our core values What we offer The MQO group is young but yet very
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ultra-efficient lasers and all-optical transistors. Our goal is to uncover the elusive physics of strongly interacting polaritons far from equilibrium, bringing the vision of room-temperature superfluid
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in-situ & ex-situ ion irradiations, this PhD project will evaluate the effect of irradiation and transmutant gases on microstructure evolution in e-beam-, laser- and TIG-welded RAFM steels – the
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aspects of photonics. Research is performed within nanophotonics, photonic nanotechnology, lasers, quantum photonics, optical sensors, LEDs, photovoltaics, ultra-high speed optical transmission systems, and
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, nanophotonics, lasers, quantum photonics, optical sensors, LEDs, photovoltaics, ultra-high speed optical transmission systems, bio-photonics. Technology for people DTU develops technology for people. With our
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with x-ray free electron lasers. The project may also include theoretical calculations. The PhD student will work within a friendly and open research team that is part of an extended national and
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-billionths of a second (femtosecond). X-ray free-electron lasers (XFEL) are a powerful tool to watch material dynamics on these timescales but how to design and interpret XFEL experiments remains challenging
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be part of a research group that develops new, high-quality, high-resolution digital maps using AI. Our AI models use high-resolution digital elevation models from airborne laser scanning to calculate