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) excitation source with 5 nm spatial and 5 fs temporal resolution. This enables us to study excitations and localized modes of plasmons, 2D semiconductors, and a wide range of optical metamaterials. We study
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Are you eager to pursue a PhD on the interface of nanophotonics and highly nonlinear optics? Are you looking for a PhD project that combines scientific advances with relevance for applications? In the NWO research programme NanoXUV we will develop nanophotonic structures that convert infrared...
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temporal resolution. This enables us to study excitations and localized modes of plasmons, 2D semiconductors, and a wide range of optical metamaterials. We study excitation dynamics through time-resolved
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structures for application in high-precision semiconductor metrology, guided by design principles from the field of optical metasurfaces. The tremendous success of the semiconductor industry is enabled by
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resolution. This enables us to study excitations and localized modes of plasmons, 2D semiconductors and a wide range of optical metamaterials. We study excitation dynamics through time-resolved spectroscopy
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resolution. This enables us to study excitations and localized modes of plasmons, 2D semiconductors and a wide range of optical metamaterials. We study excitation dynamics through time-resolved spectroscopy