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• Exploration of dielectric-based resonant and non-resonant nanophotonic architectures compatible with large-area fabrication • Demonstration of prototype metasurface devices combining optical selectivity
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, often in direct collaboration with NIST experiments. The materials systems we have studied recently include semiconductors, topological materials, 2D materials, magnetic materials, dielectrics and
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: Condensed Matter, High Energy Physics, Astrophysics, Cosmology, General Relativity. • Experimental Physics: Laser Spectroscopy, Dielectric and THz Spectroscopy, Biophysics, Medical Physics, Geophysics
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• Exploration of dielectric-based resonant and non-resonant nanophotonic architectures compatible with large-area fabrication • Demonstration of prototype metasurface devices combining optical selectivity
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will be evaluated through space-charge measurements, polarization/depolarization currents, dielectric spectroscopy, accelerated lifetime tests, and chemical–physical analyses. In addition, the successful
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trapping/detrapping in the gate dielectric is becoming increasingly important, as its amplitude is inversely proportional to the surface area of the gate oxide. This also leads to a sharp increase in dynamic
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using experimental data (such as conductivity and dielectric loss measurements), and evaluating the effects on system reliability. What you will get in return: Fantastic market leading Pension scheme
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pollutants without leaving harmful residues. The most common method, surface dielectric barrier discharge (SDBD), uses micro-discharges to convert O₂ into ozone. Several key factors govern the discharge
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and experimental physics: • Theoretical Physics: Condensed Matter, High Energy Physics, Astrophysics, Cosmology, General Relativity. • Experimental Physics: Laser Spectroscopy, Dielectric and THz
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Job related to staff position within a Research Infrastructure? No Offer Description Job description The focus is on the fabrication of dielectric metamaterials for advanced light manipulation functions